  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3625042E-09 Y= -0.3625042E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161934E+02         XY= -0.36475791E-08         XZ=  0.29784929E-01
                YY= -0.10161934E+02         YZ=  0.29784929E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460138E+01         XY=  0.10339758E-24         XZ=  0.22204460E-14
                YY=  0.12460138E+01         YZ=  0.88817842E-15         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8363025E-08 Y= -0.3602647E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161934E+02         XY=  0.39982691E-07         XZ=  0.29784971E-01
                YY= -0.10161934E+02         YZ=  0.29784929E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49538165E-06 Y=  0.95930262E-11 Z= -0.39914418E-09   Total=     0.00000050
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460232E+01         XY=  0.46807689E-05         XZ=  0.46006367E-05
                YY=  0.12460138E+01         YZ= -0.36908037E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8840190E-07 Y= -0.3600480E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.44018148E-06         XZ=  0.29785364E-01
                YY= -0.10161934E+02         YZ=  0.29784929E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11623101E-05 Y=  0.15557395E-10 Z= -0.81243365E-09   Total=     0.00000116
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460358E+01         XY=  0.10982386E-04         XZ=  0.10803044E-04
                YY=  0.12460138E+01         YZ= -0.75456928E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1970650E-06 Y= -0.3578085E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.98350348E-06         XZ=  0.29785897E-01
                YY= -0.10161934E+02         YZ=  0.29784928E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10994940E-05 Y=  0.15840604E-10 Z= -0.12351882E-08   Total=     0.00000110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460346E+01         XY=  0.10388862E-04         XZ=  0.10235709E-04
                YY=  0.12460138E+01         YZ= -0.11537652E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2673986E-06 Y= -0.3547022E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13351770E-05         XZ=  0.29786243E-01
                YY= -0.10161934E+02         YZ=  0.29784928E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31155219E-06 Y=  0.10863654E-10 Z= -0.16374683E-08   Total=     0.00000031
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460197E+01         XY=  0.29438443E-05         XZ=  0.29284959E-05
                YY=  0.12460138E+01         YZ= -0.15380254E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2465124E-06 Y= -0.3516681E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.12307477E-05         XZ=  0.29786141E-01
                YY= -0.10161934E+02         YZ=  0.29784927E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.89177003E-06 Y=  0.32958937E-11 Z= -0.19763128E-08   Total=     0.00000089
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459969E+01         XY= -0.84259745E-05         XZ= -0.82652470E-05
                YY=  0.12460138E+01         YZ= -0.18645184E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1179562E-06 Y= -0.3495009E-09 Z=  0.5956986E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.58796639E-06         XZ=  0.29785510E-01
                YY= -0.10161934E+02         YZ=  0.29784926E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20184587E-05 Y= -0.31587935E-11 Z= -0.22194302E-08   Total=     0.00000202
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459757E+01         XY= -0.19071700E-04         XZ= -0.18792227E-04
                YY=  0.12460138E+01         YZ= -0.20996274E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9048778E-07 Y= -0.3479116E-09 Z=  0.5956985E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.45425679E-06         XZ=  0.29784484E-01
                YY= -0.10161934E+02         YZ=  0.29784925E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25948679E-05 Y= -0.54191901E-11 Z= -0.23662192E-08   Total=     0.00000259
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459648E+01         XY= -0.24517999E-04         XZ= -0.24244511E-04
                YY=  0.12460138E+01         YZ= -0.22402017E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3170629E-06 Y= -0.3470447E-09 Z=  0.5956985E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.15871349E-05         XZ=  0.29783365E-01
                YY= -0.10161934E+02         YZ=  0.29784924E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23620092E-05 Y= -0.23821907E-11 Z= -0.24531173E-08   Total=     0.00000236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459692E+01         XY= -0.22317775E-04         XZ= -0.22176325E-04
                YY=  0.12460138E+01         YZ= -0.23197457E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4904224E-06 Y= -0.3474781E-09 Z=  0.5956985E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.24539323E-05         XZ=  0.29782505E-01
                YY= -0.10161934E+02         YZ=  0.29784923E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13862035E-05 Y=  0.46227789E-11 Z= -0.25394767E-08   Total=     0.00000139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459876E+01         XY= -0.13097682E-04         XZ= -0.13144617E-04
                YY=  0.12460138E+01         YZ= -0.23954565E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5583671E-06 Y= -0.3469724E-09 Z=  0.5956985E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.27936532E-05         XZ=  0.29782163E-01
                YY= -0.10161934E+02         YZ=  0.29784922E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37407538E-07 Y=  0.12468300E-10 Z= -0.26814694E-08   Total=     0.00000004
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460131E+01         XY= -0.35333220E-06         XZ= -0.53674538E-06
                YY=  0.12460138E+01         YZ= -0.25230308E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5092794E-06 Y= -0.3451664E-09 Z=  0.5956985E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.25482088E-05         XZ=  0.29782401E-01
                YY= -0.10161934E+02         YZ=  0.29784921E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11570947E-05 Y=  0.17646930E-10 Z= -0.29081050E-08   Total=     0.00000116
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460357E+01         XY=  0.10933127E-04         XZ=  0.10756564E-04
                YY=  0.12460138E+01         YZ= -0.27328192E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3774520E-06 Y= -0.3433604E-09 Z=  0.5956984E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.18890652E-05         XZ=  0.29783054E-01
                YY= -0.10161934E+02         YZ=  0.29784919E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17247115E-05 Y=  0.17826931E-10 Z= -0.32114086E-08   Total=     0.00000172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460464E+01         XY=  0.16296330E-04         XZ=  0.16293131E-04
                YY=  0.12460138E+01         YZ= -0.30192392E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2299880E-06 Y= -0.3421323E-09 Z=  0.5956984E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.11517402E-05         XZ=  0.29783795E-01
                YY= -0.10161934E+02         YZ=  0.29784918E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14390785E-05 Y=  0.12851110E-10 Z= -0.35543806E-08   Total=     0.00000144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460410E+01         XY=  0.13597442E-04         XZ=  0.13868300E-04
                YY=  0.12460138E+01         YZ= -0.33474623E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1404075E-06 Y= -0.3421323E-09 Z=  0.5956984E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.70383353E-06         XZ=  0.29784258E-01
                YY= -0.10161934E+02         YZ=  0.29784917E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41297884E-06 Y=  0.47499054E-11 Z= -0.38904792E-08   Total=     0.00000041
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460216E+01         XY=  0.39021294E-05         XZ=  0.44158664E-05
                YY=  0.12460138E+01         YZ= -0.36718120E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1594930E-06 Y= -0.3432159E-09 Z=  0.5956983E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.79926205E-06         XZ=  0.29784187E-01
                YY= -0.10161934E+02         YZ=  0.29784915E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.94530225E-06 Y= -0.32101735E-11 Z= -0.41832569E-08   Total=     0.00000095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459959E+01         XY= -0.89318422E-05         XZ= -0.83454555E-05
                YY=  0.12460138E+01         YZ= -0.39551127E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2950445E-06 Y= -0.3439383E-09 Z=  0.5956983E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.14770209E-05         XZ=  0.29783534E-01
                YY= -0.10161934E+02         YZ=  0.29784913E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20945907E-05 Y= -0.79897721E-11 Z= -0.44166765E-08   Total=     0.00000209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459742E+01         XY= -0.19791090E-04         XZ= -0.19379892E-04
                YY=  0.12460138E+01         YZ= -0.41796673E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5086537E-06 Y= -0.3434326E-09 Z=  0.5956983E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.25450707E-05         XZ=  0.29782481E-01
                YY= -0.10161934E+02         YZ=  0.29784911E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25767757E-05 Y= -0.80845970E-11 Z= -0.45936248E-08   Total=     0.00000258
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459651E+01         XY= -0.24347078E-04         XZ= -0.24329399E-04
                YY=  0.12460138E+01         YZ= -0.43469433E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7308132E-06 Y= -0.3426380E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.36558710E-05         XZ=  0.29781367E-01
                YY= -0.10161934E+02         YZ=  0.29784909E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21990950E-05 Y= -0.41045380E-11 Z= -0.47268808E-08   Total=     0.00000220
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459722E+01         XY= -0.20778475E-04         XZ= -0.21237382E-04
                YY=  0.12460138E+01         YZ= -0.44695254E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8883239E-06 Y= -0.3421323E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.44434248E-05         XZ=  0.29780557E-01
                YY= -0.10161934E+02         YZ=  0.29784907E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11097539E-05 Y=  0.16043103E-11 Z= -0.48297196E-08   Total=     0.00000111
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459928E+01         XY= -0.10485639E-04         XZ= -0.11314914E-04
                YY=  0.12460138E+01         YZ= -0.45619199E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9330943E-06 Y= -0.3409764E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161944E+02         XY= -0.46672752E-05         XZ=  0.29780299E-01
                YY= -0.10161934E+02         YZ=  0.29784905E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26256784E-06 Y=  0.60893435E-11 Z= -0.49111426E-08   Total=     0.00000026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460188E+01         XY=  0.24809641E-05         XZ=  0.15493568E-05
                YY=  0.12460138E+01         YZ= -0.46351039E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8609449E-06 Y= -0.3399651E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.43065257E-05         XZ=  0.29780624E-01
                YY= -0.10161934E+02         YZ=  0.29784903E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13790656E-05 Y=  0.71408161E-11 Z= -0.49759657E-08   Total=     0.00000138
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460399E+01         XY=  0.13030349E-04         XZ=  0.12324490E-04
                YY=  0.12460138E+01         YZ= -0.46954792E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7133688E-06 Y= -0.3401096E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.35686419E-05         XZ=  0.29781339E-01
                YY= -0.10161934E+02         YZ=  0.29784901E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18085283E-05 Y=  0.42244227E-11 Z= -0.50272405E-08   Total=     0.00000181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460480E+01         XY=  0.17088156E-04         XZ=  0.16855603E-04
                YY=  0.12460138E+01         YZ= -0.47463777E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5604108E-06 Y= -0.3401818E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.28038516E-05         XZ=  0.29782102E-01
                YY= -0.10161934E+02         YZ=  0.29784899E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13945581E-05 Y= -0.13566678E-11 Z= -0.50660953E-08   Total=     0.00000139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460402E+01         XY=  0.13176652E-04         XZ=  0.13472521E-04
                YY=  0.12460138E+01         YZ= -0.47877774E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4731691E-06 Y= -0.3403985E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.23676440E-05         XZ=  0.29782556E-01
                YY= -0.10161934E+02         YZ=  0.29784897E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31497043E-06 Y= -0.71451328E-11 Z= -0.50902358E-08   Total=     0.00000032
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460198E+01         XY=  0.29759718E-05         XZ=  0.36290333E-05
                YY=  0.12460138E+01         YZ= -0.48154529E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4958585E-06 Y= -0.3403985E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.24810942E-05         XZ=  0.29782471E-01
                YY= -0.10161934E+02         YZ=  0.29784895E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.99107347E-06 Y= -0.10695631E-10 Z= -0.50929511E-08   Total=     0.00000099
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459951E+01         XY= -0.93643883E-05         XZ= -0.86878767E-05
                YY=  0.12460138E+01         YZ= -0.48210150E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6285440E-06 Y= -0.3401818E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.31445254E-05         XZ=  0.29781831E-01
                YY= -0.10161934E+02         YZ=  0.29784893E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19975924E-05 Y= -0.10673852E-10 Z= -0.50654335E-08   Total=     0.00000200
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459760E+01         XY= -0.18874614E-04         XZ= -0.18532710E-04
                YY=  0.12460138E+01         YZ= -0.47950212E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8271938E-06 Y= -0.3414099E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.41377796E-05         XZ=  0.29780844E-01
                YY= -0.10161934E+02         YZ=  0.29784891E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22983494E-05 Y= -0.73949864E-11 Z= -0.50025769E-08   Total=     0.00000230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459704E+01         XY= -0.21716325E-04         XZ= -0.21936323E-04
                YY=  0.12460138E+01         YZ= -0.47329057E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1020903E-05 Y= -0.3420601E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.51063248E-05         XZ=  0.29779858E-01
                YY= -0.10161934E+02         YZ=  0.29784889E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17643722E-05 Y= -0.25845780E-11 Z= -0.49090211E-08   Total=     0.00000176
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459805E+01         XY= -0.16670926E-04         XZ= -0.17444965E-04
                YY=  0.12460138E+01         YZ= -0.46404939E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1139467E-05 Y= -0.3416989E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.56991471E-05         XZ=  0.29779227E-01
                YY= -0.10161934E+02         YZ=  0.29784887E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59193093E-06 Y=  0.14896200E-11 Z= -0.48009101E-08   Total=     0.00000059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460026E+01         XY= -0.55929227E-05         XZ= -0.66722382E-05
                YY=  0.12460138E+01         YZ= -0.45349387E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1140568E-05 Y= -0.3418433E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.57046526E-05         XZ=  0.29779177E-01
                YY= -0.10161934E+02         YZ=  0.29784885E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.77574735E-06 Y=  0.30820708E-11 Z= -0.47009616E-08   Total=     0.00000078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460285E+01         XY=  0.73297793E-05         XZ=  0.63356543E-05
                YY=  0.12460138E+01         YZ= -0.44391707E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1026121E-05 Y= -0.3414099E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.51324166E-05         XZ=  0.29779712E-01
                YY= -0.10161934E+02         YZ=  0.29784883E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18208278E-05 Y=  0.17278307E-11 Z= -0.46284882E-08   Total=     0.00000182
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460482E+01         XY=  0.17204345E-04         XZ=  0.16662880E-04
                YY=  0.12460138E+01         YZ= -0.43718317E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8416220E-06 Y= -0.3416989E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.42099204E-05         XZ=  0.29780619E-01
                YY= -0.10161934E+02         YZ=  0.29784881E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21497585E-05 Y= -0.16411220E-11 Z= -0.45896834E-08   Total=     0.00000215
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460544E+01         XY=  0.20312259E-04         XZ=  0.20406866E-04
                YY=  0.12460138E+01         YZ= -0.43379974E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6588526E-06 Y= -0.3420601E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.32960754E-05         XZ=  0.29781542E-01
                YY= -0.10161934E+02         YZ=  0.29784879E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16423089E-05 Y= -0.52430193E-11 Z= -0.45737480E-08   Total=     0.00000164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460448E+01         XY=  0.15517521E-04         XZ=  0.16159885E-04
                YY=  0.12460138E+01         YZ= -0.43259731E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5486746E-06 Y= -0.3422768E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.27451876E-05         XZ=  0.29782120E-01
                YY= -0.10161934E+02         YZ=  0.29784877E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49495233E-06 Y= -0.73641664E-11 Z= -0.45572650E-08   Total=     0.00000049
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460232E+01         XY=  0.46765522E-05         XZ=  0.55324121E-05
                YY=  0.12460138E+01         YZ= -0.43121924E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5542852E-06 Y= -0.3436494E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.27732443E-05         XZ=  0.29782121E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85586004E-06 Y= -0.71901998E-11 Z= -0.45145487E-08   Total=     0.00000086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459976E+01         XY= -0.80867734E-05         XZ= -0.74660813E-05
                YY=  0.12460138E+01         YZ= -0.42716995E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6749944E-06 Y= -0.3453831E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.33767937E-05         XZ=  0.29781532E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18995717E-05 Y= -0.51540939E-11 Z= -0.44285728E-08   Total=     0.00000190
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459779E+01         XY= -0.17948400E-04         XZ= -0.17941727E-04
                YY=  0.12460138E+01         YZ= -0.41887641E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8665404E-06 Y= -0.3469724E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.43345253E-05         XZ=  0.29780560E-01
                YY= -0.10161934E+02         YZ=  0.29784872E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22430284E-05 Y= -0.26530256E-11 Z= -0.42973051E-08   Total=     0.00000224
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459714E+01         XY= -0.21193572E-04         XZ= -0.21949490E-04
                YY=  0.12460138E+01         YZ= -0.40626342E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1057704E-05 Y= -0.3474059E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.52903430E-05         XZ=  0.29779562E-01
                YY= -0.10161934E+02         YZ=  0.29784870E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17558170E-05 Y= -0.12967695E-11 Z= -0.41333341E-08   Total=     0.00000176
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459806E+01         XY= -0.16590078E-04         XZ= -0.17957990E-04
                YY=  0.12460138E+01         YZ= -0.39065567E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1176904E-05 Y= -0.3484172E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.58863459E-05         XZ=  0.29778904E-01
                YY= -0.10161934E+02         YZ=  0.29784868E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61626149E-06 Y= -0.20745307E-11 Z= -0.39583089E-08   Total=     0.00000062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460022E+01         XY= -0.58228468E-05         XZ= -0.74060865E-05
                YY=  0.12460138E+01         YZ= -0.37418210E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1178813E-05 Y= -0.3496453E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.58958940E-05         XZ=  0.29778830E-01
                YY= -0.10161934E+02         YZ=  0.29784867E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.75723722E-06 Y= -0.48595410E-11 Z= -0.37956338E-08   Total=     0.00000076
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460281E+01         XY=  0.71548089E-05         XZ=  0.58441296E-05
                YY=  0.12460138E+01         YZ= -0.35904409E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1061141E-05 Y= -0.3502955E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.53075365E-05         XZ=  0.29779372E-01
                YY= -0.10161934E+02         YZ=  0.29784865E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18625632E-05 Y= -0.84939100E-11 Z= -0.36641341E-08   Total=     0.00000186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460490E+01         XY=  0.17598592E-04         XZ=  0.16945689E-04
                YY=  0.12460138E+01         YZ= -0.34692365E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8654211E-06 Y= -0.3509457E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.43289400E-05         XZ=  0.29780332E-01
                YY= -0.10161934E+02         YZ=  0.29784864E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22995882E-05 Y= -0.11400631E-10 Z= -0.35737097E-08   Total=     0.00000230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460573E+01         XY=  0.21727852E-04         XZ=  0.21861367E-04
                YY=  0.12460138E+01         YZ= -0.33862384E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6615453E-06 Y= -0.3515236E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.33095653E-05         XZ=  0.29781363E-01
                YY= -0.10161934E+02         YZ=  0.29784862E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19170076E-05 Y= -0.12406322E-10 Z= -0.35227714E-08   Total=     0.00000192
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460500E+01         XY=  0.18112980E-04         XZ=  0.18853826E-04
                YY=  0.12460138E+01         YZ= -0.33389576E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5217964E-06 Y= -0.3525350E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.26108253E-05         XZ=  0.29782093E-01
                YY= -0.10161934E+02         YZ=  0.29784861E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.86710898E-06 Y= -0.11353544E-10 Z= -0.34976734E-08   Total=     0.00000087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460302E+01         XY=  0.81928852E-05         XZ=  0.91265402E-05
                YY=  0.12460138E+01         YZ= -0.33143635E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4939479E-06 Y= -0.3539798E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.24715870E-05         XZ=  0.29782264E-01
                YY= -0.10161934E+02         YZ=  0.29784860E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45075058E-06 Y= -0.91866811E-11 Z= -0.34753819E-08   Total=     0.00000045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460053E+01         XY= -0.42590626E-05         XZ= -0.36166057E-05
                YY=  0.12460138E+01         YZ= -0.32914829E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5833468E-06 Y= -0.3542687E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.29185844E-05         XZ=  0.29781832E-01
                YY= -0.10161934E+02         YZ=  0.29784858E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15370328E-05 Y= -0.74608433E-11 Z= -0.34305592E-08   Total=     0.00000154
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459848E+01         XY= -0.14522926E-04         XZ= -0.14533006E-04
                YY=  0.12460138E+01         YZ= -0.32476796E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7506414E-06 Y= -0.3547022E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.37550596E-05         XZ=  0.29780983E-01
                YY= -0.10161934E+02         YZ=  0.29784857E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19760538E-05 Y= -0.75179813E-11 Z= -0.33462226E-08   Total=     0.00000198
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459765E+01         XY= -0.18671074E-04         XZ= -0.19431149E-04
                YY=  0.12460138E+01         YZ= -0.31680360E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9261243E-06 Y= -0.3558580E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161944E+02         XY= -0.46324772E-05         XZ=  0.29780066E-01
                YY= -0.10161934E+02         YZ=  0.29784855E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15904812E-05 Y= -0.97478959E-11 Z= -0.32237057E-08   Total=     0.00000159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459838E+01         XY= -0.15027962E-04         XZ= -0.16336868E-04
                YY=  0.12460138E+01         YZ= -0.30541447E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1035579E-05 Y= -0.3564360E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.51797550E-05         XZ=  0.29779462E-01
                YY= -0.10161934E+02         YZ=  0.29784854E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50990216E-06 Y= -0.13318009E-10 Z= -0.30859155E-08   Total=     0.00000051
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460042E+01         XY= -0.48180030E-05         XZ= -0.62596815E-05
                YY=  0.12460138E+01         YZ= -0.29269528E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1028214E-05 Y= -0.3577363E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.51429333E-05         XZ=  0.29779443E-01
                YY= -0.10161934E+02         YZ=  0.29784853E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.87240446E-06 Y= -0.16528495E-10 Z= -0.29697900E-08   Total=     0.00000087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460303E+01         XY=  0.82428713E-05         XZ=  0.71326786E-05
                YY=  0.12460138E+01         YZ= -0.28199370E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8963585E-06 Y= -0.3588199E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.44836650E-05         XZ=  0.29780064E-01
                YY= -0.10161934E+02         YZ=  0.29784852E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20405207E-05 Y= -0.17636338E-10 Z= -0.29093918E-08   Total=     0.00000204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460524E+01         XY=  0.19279960E-04         XZ=  0.18831594E-04
                YY=  0.12460138E+01         YZ= -0.27638169E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6794434E-06 Y= -0.3591089E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.33990948E-05         XZ=  0.29781138E-01
                YY= -0.10161934E+02         YZ=  0.29784851E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25453394E-05 Y= -0.15748235E-10 Z= -0.29175575E-08   Total=     0.00000255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460619E+01         XY=  0.24049823E-04         XZ=  0.24333887E-04
                YY=  0.12460138E+01         YZ= -0.27699693E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4503750E-06 Y= -0.3601203E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.22537574E-05         XZ=  0.29782300E-01
                YY= -0.10161934E+02         YZ=  0.29784849E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21741608E-05 Y= -0.11333670E-10 Z= -0.29765772E-08   Total=     0.00000217
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460549E+01         XY=  0.20542735E-04         XZ=  0.21348129E-04
                YY=  0.12460138E+01         YZ= -0.28220514E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2889325E-06 Y= -0.3610594E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.14465485E-05         XZ=  0.29783139E-01
                YY= -0.10161934E+02         YZ=  0.29784848E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10374423E-05 Y= -0.60828807E-11 Z= -0.30446400E-08   Total=     0.00000104
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460334E+01         XY=  0.98023517E-05         XZ=  0.10723807E-04
                YY=  0.12460138E+01         YZ= -0.28819749E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2517743E-06 Y= -0.3612039E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.12607568E-05         XZ=  0.29783355E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46193590E-06 Y= -0.21489831E-11 Z= -0.30761941E-08   Total=     0.00000046
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460051E+01         XY= -0.43646820E-05         XZ= -0.37666015E-05
                YY=  0.12460138E+01         YZ= -0.29085055E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3501952E-06 Y= -0.3607704E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.17528632E-05         XZ=  0.29782877E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17696975E-05 Y= -0.11208461E-11 Z= -0.30455361E-08   Total=     0.00000177
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459804E+01         XY= -0.16721228E-04         XZ= -0.16751164E-04
                YY=  0.12460138E+01         YZ= -0.28786907E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5442781E-06 Y= -0.3608427E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.27232770E-05         XZ=  0.29781895E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23833632E-05 Y= -0.32214228E-11 Z= -0.29599857E-08   Total=     0.00000238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459688E+01         XY= -0.22519549E-04         XZ= -0.23233805E-04
                YY=  0.12460138E+01         YZ= -0.27996347E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7562564E-06 Y= -0.3600480E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.37831702E-05         XZ=  0.29780799E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20441513E-05 Y= -0.71342992E-11 Z= -0.28543030E-08   Total=     0.00000204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459752E+01         XY= -0.19314498E-04         XZ= -0.20503737E-04
                YY=  0.12460138E+01         YZ= -0.27030780E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8987632E-06 Y= -0.3598313E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.44957087E-05         XZ=  0.29780036E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.84487573E-06 Y= -0.10569856E-10 Z= -0.27689426E-08   Total=     0.00000084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459978E+01         XY= -0.79830186E-05         XZ= -0.92543341E-05
                YY=  0.12460138E+01         YZ= -0.26253244E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9077970E-06 Y= -0.3614206E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.45408819E-05         XZ=  0.29779942E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.79071215E-06 Y= -0.11328998E-10 Z= -0.27249265E-08   Total=     0.00000079
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460287E+01         XY=  0.74710400E-05         XZ=  0.65465177E-05
                YY=  0.12460138E+01         YZ= -0.25843939E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7680491E-06 Y= -0.3626487E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.38421461E-05         XZ=  0.29780610E-01
                YY= -0.10161934E+02         YZ=  0.29784840E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22554031E-05 Y= -0.83732494E-11 Z= -0.27108561E-08   Total=     0.00000226
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460564E+01         XY=  0.21310391E-04         XZ=  0.21040597E-04
                YY=  0.12460138E+01         YZ= -0.25686447E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5206006E-06 Y= -0.3636601E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.26049064E-05         XZ=  0.29781843E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29828711E-05 Y= -0.23887239E-11 Z= -0.26907847E-08   Total=     0.00000298
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460702E+01         XY=  0.28184025E-04         XZ=  0.28646618E-04
                YY=  0.12460138E+01         YZ= -0.25446870E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2492695E-06 Y= -0.3634433E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.12482504E-05         XZ=  0.29783223E-01
                YY= -0.10161934E+02         YZ=  0.29784838E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26667371E-05 Y=  0.44437893E-11 Z= -0.26289393E-08   Total=     0.00000267
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460642E+01         XY=  0.25197055E-04         XZ=  0.26214831E-04
                YY=  0.12460138E+01         YZ= -0.24805465E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4997270E-07 Y= -0.3620708E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.25176370E-06         XZ=  0.29784261E-01
                YY= -0.10161934E+02         YZ=  0.29784836E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13897565E-05 Y=  0.93921153E-11 Z= -0.25164540E-08   Total=     0.00000139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460401E+01         XY=  0.13131385E-04         XZ=  0.14338154E-04
                YY=  0.12460138E+01         YZ= -0.23701347E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5796961E-08 Y= -0.3607704E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161934E+02         XY=  0.27087870E-07         XZ=  0.29784585E-01
                YY= -0.10161934E+02         YZ=  0.29784835E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39121807E-06 Y=  0.10410538E-10 Z= -0.23832480E-08   Total=     0.00000039
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460064E+01         XY= -0.36963767E-05         XZ= -0.27253959E-05
                YY=  0.12460138E+01         YZ= -0.22434355E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1004863E-06 Y= -0.3586032E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.50432590E-06         XZ=  0.29784086E-01
                YY= -0.10161934E+02         YZ=  0.29784834E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20059082E-05 Y=  0.71024519E-11 Z= -0.22865798E-08   Total=     0.00000201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459759E+01         XY= -0.18953019E-04         XZ= -0.18553161E-04
                YY=  0.12460138E+01         YZ= -0.21548835E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3252452E-06 Y= -0.3567249E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.16281179E-05         XZ=  0.29782970E-01
                YY= -0.10161934E+02         YZ=  0.29784833E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28217889E-05 Y=  0.95199859E-12 Z= -0.22819214E-08   Total=     0.00000282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459605E+01         XY= -0.26662032E-04         XZ= -0.26964276E-04
                YY=  0.12460138E+01         YZ= -0.21556506E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5774432E-06 Y= -0.3571584E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.28891099E-05         XZ=  0.29781690E-01
                YY= -0.10161934E+02         YZ=  0.29784832E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24921975E-05 Y= -0.53007526E-11 Z= -0.23926728E-08   Total=     0.00000249
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459667E+01         XY= -0.23547903E-04         XZ= -0.24435072E-04
                YY=  0.12460138E+01         YZ= -0.22655536E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7523038E-06 Y= -0.3573029E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.37634151E-05         XZ=  0.29780777E-01
                YY= -0.10161934E+02         YZ=  0.29784831E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11039864E-05 Y= -0.88724725E-11 Z= -0.25963584E-08   Total=     0.00000110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459929E+01         XY= -0.10431244E-04         XZ= -0.11578877E-04
                YY=  0.12460138E+01         YZ= -0.24610261E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7717208E-06 Y= -0.3574473E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.38605051E-05         XZ=  0.29780635E-01
                YY= -0.10161934E+02         YZ=  0.29784830E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83808829E-06 Y= -0.81931203E-11 Z= -0.28354075E-08   Total=     0.00000084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460296E+01         XY=  0.79187093E-05         XZ=  0.69311831E-05
                YY=  0.12460138E+01         YZ= -0.26863545E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6158079E-06 Y= -0.3575918E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.30809425E-05         XZ=  0.29781381E-01
                YY= -0.10161934E+02         YZ=  0.29784829E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25918916E-05 Y= -0.36329812E-11 Z= -0.30462926E-08   Total=     0.00000259
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460628E+01         XY=  0.24489792E-04         XZ=  0.24034614E-04
                YY=  0.12460138E+01         YZ= -0.28818211E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3328483E-06 Y= -0.3570139E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.16661461E-05         XZ=  0.29782786E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34599583E-05 Y=  0.26403027E-11 Z= -0.31904089E-08   Total=     0.00000346
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460792E+01         XY=  0.32691893E-04         XZ=  0.32963010E-04
                YY=  0.12460138E+01         YZ= -0.30127590E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2285163E-07 Y= -0.3555691E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.11616012E-06         XZ=  0.29784356E-01
                YY= -0.10161934E+02         YZ=  0.29784826E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30662142E-05 Y=  0.76206488E-11 Z= -0.32696136E-08   Total=     0.00000307
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460717E+01         XY=  0.28971597E-04         XZ=  0.29912873E-04
                YY=  0.12460138E+01         YZ= -0.30834383E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1998574E-06 Y= -0.3541243E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.99738918E-06         XZ=  0.29785515E-01
                YY= -0.10161934E+02         YZ=  0.29784824E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15174474E-05 Y=  0.88121731E-11 Z= -0.33188570E-08   Total=     0.00000152
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460424E+01         XY=  0.14337884E-04         XZ=  0.15655401E-04
                YY=  0.12460138E+01         YZ= -0.31289736E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2510849E-06 Y= -0.3534741E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.12535295E-05         XZ=  0.29785827E-01
                YY= -0.10161934E+02         YZ=  0.29784823E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61957195E-06 Y=  0.53621929E-11 Z= -0.33818355E-08   Total=     0.00000062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460021E+01         XY= -0.58540559E-05         XZ= -0.45965303E-05
                YY=  0.12460138E+01         YZ= -0.31913710E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1109851E-06 Y= -0.3527517E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.55303043E-06         XZ=  0.29785176E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25241859E-05 Y= -0.15332755E-11 Z= -0.34848433E-08   Total=     0.00000252
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459661E+01         XY= -0.23850114E-04         XZ= -0.23081379E-04
                YY=  0.12460138E+01         YZ= -0.32944804E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1658565E-06 Y= -0.3521738E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.83117921E-06         XZ=  0.29783818E-01
                YY= -0.10161934E+02         YZ=  0.29784820E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34370289E-05 Y= -0.91385081E-11 Z= -0.36239423E-08   Total=     0.00000344
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459488E+01         XY= -0.32475303E-04         XZ= -0.32461756E-04
                YY=  0.12460138E+01         YZ= -0.34322956E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4693601E-06 Y= -0.3514514E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.23487009E-05         XZ=  0.29782294E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29633343E-05 Y= -0.14376298E-10 Z= -0.37715634E-08   Total=     0.00000296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459578E+01         XY= -0.27999587E-04         XZ= -0.28739471E-04
                YY=  0.12460138E+01         YZ= -0.35761900E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6754740E-06 Y= -0.3522460E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.33792770E-05         XZ=  0.29781229E-01
                YY= -0.10161934E+02         YZ=  0.29784816E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12430295E-05 Y= -0.15180158E-10 Z= -0.38967498E-08   Total=     0.00000124
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459903E+01         XY= -0.11745070E-04         XZ= -0.12953369E-04
                YY=  0.12460138E+01         YZ= -0.36951764E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6946322E-06 Y= -0.3534741E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.34750722E-05         XZ=  0.29781084E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10852690E-05 Y= -0.11397238E-10 Z= -0.39857915E-08   Total=     0.00000109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460343E+01         XY=  0.10254198E-04         XZ=  0.90578292E-05
                YY=  0.12460138E+01         YZ= -0.37761633E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5082281E-06 Y= -0.3544132E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.25430544E-05         XZ=  0.29781974E-01
                YY= -0.10161934E+02         YZ=  0.29784813E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31197527E-05 Y= -0.48410618E-11 Z= -0.40510934E-08   Total=     0.00000312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460727E+01         XY=  0.29477345E-04         XZ=  0.28801824E-04
                YY=  0.12460138E+01         YZ= -0.38323822E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1782595E-06 Y= -0.3549912E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.89321282E-06         XZ=  0.29783609E-01
                YY= -0.10161934E+02         YZ=  0.29784811E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40439246E-05 Y=  0.15251053E-11 Z= -0.41241143E-08   Total=     0.00000404
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460902E+01         XY=  0.38209564E-04         XZ=  0.38402347E-04
                YY=  0.12460138E+01         YZ= -0.38960364E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1745627E-06 Y= -0.3552801E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.87090164E-06         XZ=  0.29785395E-01
                YY= -0.10161934E+02         YZ=  0.29784809E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34531787E-05 Y=  0.49044581E-11 Z= -0.42376638E-08   Total=     0.00000345
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460790E+01         XY=  0.32627856E-04         XZ=  0.33731231E-04
                YY=  0.12460138E+01         YZ= -0.40004737E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4165690E-06 Y= -0.3545577E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161930E+02         XY=  0.20809358E-05         XZ=  0.29786663E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15284743E-05 Y=  0.38924446E-11 Z= -0.44082683E-08   Total=     0.00000153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460427E+01         XY=  0.14442026E-04         XZ=  0.16154458E-04
                YY=  0.12460138E+01         YZ= -0.41624969E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4533593E-06 Y= -0.3531129E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161930E+02         XY=  0.22648885E-05         XZ=  0.29786924E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10170586E-05 Y= -0.93062453E-12 Z= -0.46279587E-08   Total=     0.00000102
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459946E+01         XY= -0.96098195E-05         XZ= -0.78434258E-05
                YY=  0.12460138E+01         YZ= -0.43741012E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2680527E-06 Y= -0.3521015E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13383539E-05         XZ=  0.29786068E-01
                YY= -0.10161934E+02         YZ=  0.29784803E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32044374E-05 Y= -0.72942251E-11 Z= -0.48686216E-08   Total=     0.00000320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459532E+01         XY= -0.30277614E-04         XZ= -0.29070618E-04
                YY=  0.12460138E+01         YZ= -0.46068261E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6996389E-07 Y= -0.3518848E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.35173250E-06         XZ=  0.29784419E-01
                YY= -0.10161934E+02         YZ=  0.29784801E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41685500E-05 Y= -0.12276057E-10 Z= -0.50952769E-08   Total=     0.00000417
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459350E+01         XY= -0.39387205E-04         XZ= -0.39177987E-04
                YY=  0.12460138E+01         YZ= -0.48251696E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4300681E-06 Y= -0.3530407E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.21522585E-05         XZ=  0.29782614E-01
                YY= -0.10161934E+02         YZ=  0.29784799E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35034235E-05 Y= -0.13609842E-10 Z= -0.52806429E-08   Total=     0.00000350
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459476E+01         XY= -0.33102683E-04         XZ= -0.33971555E-04
                YY=  0.12460138E+01         YZ= -0.50014452E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6701959E-06 Y= -0.3541965E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.33529032E-05         XZ=  0.29781368E-01
                YY= -0.10161934E+02         YZ=  0.29784796E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14346505E-05 Y= -0.10675249E-10 Z= -0.54141708E-08   Total=     0.00000143
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459867E+01         XY= -0.13555583E-04         XZ= -0.15168060E-04
                YY=  0.12460138E+01         YZ= -0.51251544E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6923522E-06 Y= -0.3535463E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.34636866E-05         XZ=  0.29781188E-01
                YY= -0.10161934E+02         YZ=  0.29784794E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12540927E-05 Y= -0.47369344E-11 Z= -0.55026816E-08   Total=     0.00000125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460375E+01         XY=  0.11849414E-04         XZ=  0.10140482E-04
                YY=  0.12460138E+01         YZ= -0.52037942E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4820650E-06 Y= -0.3523182E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.24122517E-05         XZ=  0.29782176E-01
                YY= -0.10161934E+02         YZ=  0.29784792E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35173659E-05 Y=  0.16560900E-11 Z= -0.55640830E-08   Total=     0.00000352
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460802E+01         XY=  0.33234307E-04         XZ=  0.32155856E-04
                YY=  0.12460138E+01         YZ= -0.52564203E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1158529E-06 Y= -0.3510902E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.58118991E-06         XZ=  0.29783979E-01
                YY= -0.10161934E+02         YZ=  0.29784789E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44548355E-05 Y=  0.58233137E-11 Z= -0.56180157E-08   Total=     0.00000445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460980E+01         XY=  0.42092150E-04         XZ=  0.42169898E-04
                YY=  0.12460138E+01         YZ= -0.53038457E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2669473E-06 Y= -0.3495009E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13328129E-05         XZ=  0.29785917E-01
                YY= -0.10161934E+02         YZ=  0.29784787E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36696995E-05 Y=  0.61299660E-11 Z= -0.56773499E-08   Total=     0.00000367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460831E+01         XY=  0.34673694E-04         XZ=  0.36011345E-04
                YY=  0.12460138E+01         YZ= -0.53596129E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5176173E-06 Y= -0.3482005E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.25861651E-05         XZ=  0.29787242E-01
                YY= -0.10161934E+02         YZ=  0.29784784E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14353835E-05 Y=  0.26624790E-11 Z= -0.57430654E-08   Total=     0.00000144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460409E+01         XY=  0.13562434E-04         XZ=  0.15773512E-04
                YY=  0.12460138E+01         YZ= -0.54245851E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5362058E-06 Y= -0.3472614E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.26791082E-05         XZ=  0.29787434E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13993968E-05 Y= -0.28829748E-11 Z= -0.58037826E-08   Total=     0.00000140
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459873E+01         XY= -0.13222411E-04         XZ= -0.10892468E-04
                YY=  0.12460138E+01         YZ= -0.54865914E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3115903E-06 Y= -0.3479838E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.15560275E-05         XZ=  0.29786403E-01
                YY= -0.10161934E+02         YZ=  0.29784779E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37345613E-05 Y= -0.80216833E-11 Z= -0.58402973E-08   Total=     0.00000373
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459432E+01         XY= -0.35286566E-04         XZ= -0.33684443E-04
                YY=  0.12460138E+01         YZ= -0.55254005E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7262899E-07 Y= -0.3501510E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.36507261E-06         XZ=  0.29784533E-01
                YY= -0.10161934E+02         YZ=  0.29784777E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46476086E-05 Y= -0.10617954E-10 Z= -0.58342675E-08   Total=     0.00000465
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459260E+01         XY= -0.43913638E-04         XZ= -0.43649073E-04
                YY=  0.12460138E+01         YZ= -0.55218819E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4693106E-06 Y= -0.3513791E-09 Z=  0.5956955E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.23484853E-05         XZ=  0.29782540E-01
                YY= -0.10161934E+02         YZ=  0.29784774E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37597534E-05 Y= -0.98152523E-11 Z= -0.57780865E-08   Total=     0.00000376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459427E+01         XY= -0.35524614E-04         XZ= -0.36716823E-04
                YY=  0.12460138E+01         YZ= -0.54681223E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7243819E-06 Y= -0.3513069E-09 Z=  0.5956955E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.36238449E-05         XZ=  0.29781199E-01
                YY= -0.10161934E+02         YZ=  0.29784772E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13935254E-05 Y= -0.63475133E-11 Z= -0.56813751E-08   Total=     0.00000139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459875E+01         XY= -0.13166967E-04         XZ= -0.15372650E-04
                YY=  0.12460138E+01         YZ= -0.53738214E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7370240E-06 Y= -0.3511624E-09 Z=  0.5956954E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.36870578E-05         XZ=  0.29781040E-01
                YY= -0.10161934E+02         YZ=  0.29784770E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15434580E-05 Y= -0.21180010E-11 Z= -0.55698018E-08   Total=     0.00000154
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460430E+01         XY=  0.14583545E-04         XZ=  0.12221676E-04
                YY=  0.12460138E+01         YZ= -0.52648291E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4998858E-06 Y= -0.3521015E-09 Z=  0.5956954E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.25013671E-05         XZ=  0.29782137E-01
                YY= -0.10161934E+02         YZ=  0.29784767E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39065495E-05 Y=  0.73011268E-12 Z= -0.54751214E-08   Total=     0.00000391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460876E+01         XY=  0.36911550E-04         XZ=  0.35343735E-04
                YY=  0.12460138E+01         YZ= -0.51729520E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1032918E-06 Y= -0.3529684E-09 Z=  0.5956953E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.51839632E-06         XZ=  0.29784077E-01
                YY= -0.10161934E+02         YZ=  0.29784765E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47600745E-05 Y=  0.80517674E-12 Z= -0.54201527E-08   Total=     0.00000476
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461037E+01         XY=  0.44976193E-04         XZ=  0.44872204E-04
                YY=  0.12460138E+01         YZ= -0.51209246E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2986983E-06 Y= -0.3536186E-09 Z=  0.5956953E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.14915537E-05         XZ=  0.29786109E-01
                YY= -0.10161934E+02         YZ=  0.29784763E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37470992E-05 Y= -0.19368827E-11 Z= -0.54060901E-08   Total=     0.00000375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460846E+01         XY=  0.35404938E-04         XZ=  0.36875731E-04
                YY=  0.12460138E+01         YZ= -0.51099182E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5475960E-06 Y= -0.3539075E-09 Z=  0.5956952E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.27360412E-05         XZ=  0.29787435E-01
                YY= -0.10161934E+02         YZ=  0.29784760E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12367391E-05 Y= -0.62470946E-11 Z= -0.54094066E-08   Total=     0.00000124
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460372E+01         XY=  0.11685432E-04         XZ=  0.14216218E-04
                YY=  0.12460138E+01         YZ= -0.51166579E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5422861E-06 Y= -0.3539075E-09 Z=  0.5956952E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.27094892E-05         XZ=  0.29787522E-01
                YY= -0.10161934E+02         YZ=  0.29784758E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18111870E-05 Y= -0.10230077E-10 Z= -0.53913280E-08   Total=     0.00000181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459796E+01         XY= -0.17113334E-04         XZ= -0.14482283E-04
                YY=  0.12460138E+01         YZ= -0.51029170E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2792409E-06 Y= -0.3544855E-09 Z=  0.5956952E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13942591E-05         XZ=  0.29786307E-01
                YY= -0.10161934E+02         YZ=  0.29784756E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42140324E-05 Y= -0.12251498E-10 Z= -0.53158890E-08   Total=     0.00000421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459342E+01         XY= -0.39816952E-04         XZ= -0.38123919E-04
                YY=  0.12460138E+01         YZ= -0.50333377E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1447688E-06 Y= -0.3544132E-09 Z=  0.5956951E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.72579393E-06         XZ=  0.29784237E-01
                YY= -0.10161934E+02         YZ=  0.29784754E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50252302E-05 Y= -0.11669959E-10 Z= -0.51673370E-08   Total=     0.00000503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459188E+01         XY= -0.47481654E-04         XZ= -0.47431228E-04
                YY=  0.12460138E+01         YZ= -0.48924925E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5689616E-06 Y= -0.3543410E-09 Z=  0.5956951E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.28467626E-05         XZ=  0.29782093E-01
                YY= -0.10161934E+02         YZ=  0.29784752E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39059175E-05 Y= -0.90596484E-11 Z= -0.49571422E-08   Total=     0.00000391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459400E+01         XY= -0.36905657E-04         XZ= -0.38574575E-04
                YY=  0.12460138E+01         YZ= -0.46916967E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8301376E-06 Y= -0.3536908E-09 Z=  0.5956950E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.41526445E-05         XZ=  0.29780699E-01
                YY= -0.10161934E+02         YZ=  0.29784750E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12635917E-05 Y= -0.58460112E-11 Z= -0.47163366E-08   Total=     0.00000126
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459899E+01         XY= -0.11939267E-04         XZ= -0.14723181E-04
                YY=  0.12460138E+01         YZ= -0.44614641E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8259305E-06 Y= -0.3532574E-09 Z=  0.5956950E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.41316108E-05         XZ=  0.29780601E-01
                YY= -0.10161934E+02         YZ=  0.29784748E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18980113E-05 Y= -0.35603578E-11 Z= -0.44775698E-08   Total=     0.00000190
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460497E+01         XY=  0.17933574E-04         XZ=  0.15102175E-04
                YY=  0.12460138E+01         YZ= -0.42339281E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5552311E-06 Y= -0.3541965E-09 Z=  0.5956950E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.27781152E-05         XZ=  0.29781851E-01
                YY= -0.10161934E+02         YZ=  0.29784746E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43616955E-05 Y= -0.30917996E-11 Z= -0.42575437E-08   Total=     0.00000436
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460962E+01         XY=  0.41212021E-04         XZ=  0.39452815E-04
                YY=  0.12460138E+01         YZ= -0.40256202E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1199116E-06 Y= -0.3544855E-09 Z=  0.5956949E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.60151812E-06         XZ=  0.29783981E-01
                YY= -0.10161934E+02         YZ=  0.29784744E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51656568E-05 Y= -0.42979952E-11 Z= -0.40503031E-08   Total=     0.00000517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461114E+01         XY=  0.48808343E-04         XZ=  0.48847529E-04
                YY=  0.12460138E+01         YZ= -0.38307991E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3131919E-06 Y= -0.3547022E-09 Z=  0.5956949E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.15639979E-05         XZ=  0.29786177E-01
                YY= -0.10161934E+02         YZ=  0.29784743E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39776048E-05 Y= -0.61471437E-11 Z= -0.38349412E-08   Total=     0.00000398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460890E+01         XY=  0.37582860E-04         XZ=  0.39450446E-04
                YY=  0.12460138E+01         YZ= -0.36288527E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5757702E-06 Y= -0.3557858E-09 Z=  0.5956949E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.28768873E-05         XZ=  0.29787588E-01
                YY= -0.10161934E+02         YZ=  0.29784741E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12289336E-05 Y= -0.72966686E-11 Z= -0.35921874E-08   Total=     0.00000123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460370E+01         XY=  0.11611670E-04         XZ=  0.14607431E-04
                YY=  0.12460138E+01         YZ= -0.34004510E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5627657E-06 Y= -0.3560748E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.28118621E-05         XZ=  0.29787650E-01
                YY= -0.10161934E+02         YZ=  0.29784740E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20442892E-05 Y= -0.68026565E-11 Z= -0.33189708E-08   Total=     0.00000204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459752E+01         XY= -0.19315798E-04         XZ= -0.16366142E-04
                YY=  0.12460138E+01         YZ= -0.31418999E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2734555E-06 Y= -0.3571584E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13653093E-05         XZ=  0.29786310E-01
                YY= -0.10161934E+02         YZ=  0.29784738E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45940864E-05 Y= -0.46001193E-11 Z= -0.30317328E-08   Total=     0.00000459
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459270E+01         XY= -0.43407869E-04         XZ= -0.41700555E-04
                YY=  0.12460138E+01         YZ= -0.28686733E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1870815E-06 Y= -0.3584587E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.93737768E-06         XZ=  0.29784048E-01
                YY= -0.10161934E+02         YZ=  0.29784737E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54377196E-05 Y= -0.15199127E-11 Z= -0.27567903E-08   Total=     0.00000544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459111E+01         XY= -0.51379018E-04         XZ= -0.51659360E-04
                YY=  0.12460138E+01         YZ= -0.26063244E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6470678E-06 Y= -0.3590366E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.32373089E-05         XZ=  0.29781704E-01
                YY= -0.10161934E+02         YZ=  0.29784736E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42367397E-05 Y=  0.11545194E-11 Z= -0.25142268E-08   Total=     0.00000424
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459338E+01         XY= -0.40031378E-04         XZ= -0.42287819E-04
                YY=  0.12460138E+01         YZ= -0.23748984E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9330777E-06 Y= -0.3588922E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161944E+02         XY= -0.46673565E-05         XZ=  0.29780158E-01
                YY= -0.10161934E+02         YZ=  0.29784735E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14320775E-05 Y=  0.23571051E-11 Z= -0.23056887E-08   Total=     0.00000143
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459868E+01         XY= -0.13531150E-04         XZ= -0.16981759E-04
                YY=  0.12460138E+01         YZ= -0.21768412E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9363743E-06 Y= -0.3583142E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161944E+02         XY= -0.46838399E-05         XZ=  0.29779994E-01
                YY= -0.10161934E+02         YZ=  0.29784734E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19179854E-05 Y=  0.17902644E-11 Z= -0.21136202E-08   Total=     0.00000192
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460501E+01         XY=  0.18122353E-04         XZ=  0.14739313E-04
                YY=  0.12460138E+01         YZ= -0.19958200E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6551880E-06 Y= -0.3578808E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.32779081E-05         XZ=  0.29781275E-01
                YY= -0.10161934E+02         YZ=  0.29784733E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45369566E-05 Y=  0.75159830E-13 Z= -0.19119794E-08   Total=     0.00000454
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460996E+01         XY=  0.42868028E-04         XZ=  0.40808570E-04
                YY=  0.12460138E+01         YZ= -0.18067194E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1965576E-06 Y= -0.3575918E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.98475706E-06         XZ=  0.29783511E-01
                YY= -0.10161934E+02         YZ=  0.29784733E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54158545E-05 Y= -0.15752168E-11 Z= -0.16809206E-08   Total=     0.00000542
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461162E+01         XY=  0.51172394E-04         XZ=  0.51194645E-04
                YY=  0.12460138E+01         YZ= -0.15897815E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2633838E-06 Y= -0.3586032E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13149491E-05         XZ=  0.29785842E-01
                YY= -0.10161934E+02         YZ=  0.29784732E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42011132E-05 Y= -0.19950659E-11 Z= -0.14157792E-08   Total=     0.00000420
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460932E+01         XY=  0.39694748E-04         XZ=  0.41754161E-04
                YY=  0.12460138E+01         YZ= -0.13396292E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5459745E-06 Y= -0.3600480E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.27279020E-05         XZ=  0.29787360E-01
                YY= -0.10161934E+02         YZ=  0.29784732E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13361768E-05 Y= -0.69358778E-12 Z= -0.11250162E-08   Total=     0.00000134
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460391E+01         XY=  0.12625035E-04         XZ=  0.15879856E-04
                YY=  0.12460138E+01         YZ= -0.10638418E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5383386E-06 Y= -0.3606259E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.26897221E-05         XZ=  0.29787457E-01
                YY= -0.10161934E+02         YZ=  0.29784731E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20990865E-05 Y=  0.18511291E-11 Z= -0.81979626E-09   Total=     0.00000210
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459742E+01         XY= -0.19833476E-04         XZ= -0.16704390E-04
                YY=  0.12460138E+01         YZ= -0.77335806E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2374514E-06 Y= -0.3604815E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.11852864E-05         XZ=  0.29786062E-01
                YY= -0.10161934E+02         YZ=  0.29784731E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47928197E-05 Y=  0.43911556E-11 Z= -0.50372938E-09   Total=     0.00000479
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459233E+01         XY= -0.45285542E-04         XZ= -0.43573456E-04
                YY=  0.12460138E+01         YZ= -0.47261970E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2471201E-06 Y= -0.3609871E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.12375697E-05         XZ=  0.29783676E-01
                YY= -0.10161934E+02         YZ=  0.29784731E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56984272E-05 Y=  0.55134585E-11 Z= -0.17060658E-09   Total=     0.00000570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459061E+01         XY= -0.53842282E-04         XZ= -0.54305135E-04
                YY=  0.12460138E+01         YZ= -0.15693570E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7333995E-06 Y= -0.3620708E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.36689652E-05         XZ=  0.29781190E-01
                YY= -0.10161934E+02         YZ=  0.29784731E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44370338E-05 Y=  0.43581538E-11 Z=  0.18850892E-09   Total=     0.00000444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459300E+01         XY= -0.41923852E-04         XZ= -0.44485425E-04
                YY=  0.12460138E+01         YZ=  0.18141869E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1035408E-05 Y= -0.3625042E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.51790082E-05         XZ=  0.29779550E-01
                YY= -0.10161934E+02         YZ=  0.29784731E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14513839E-05 Y=  0.10937533E-11 Z=  0.57481864E-09   Total=     0.00000145
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459864E+01         XY= -0.13713580E-04         XZ= -0.17484589E-04
                YY=  0.12460138E+01         YZ=  0.54370799E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1034177E-05 Y= -0.3627209E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.51728522E-05         XZ=  0.29779396E-01
                YY= -0.10161934E+02         YZ=  0.29784732E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21501774E-05 Y= -0.30975645E-11 Z=  0.97676302E-09   Total=     0.00000215
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460545E+01         XY=  0.20316203E-04         XZ=  0.16700533E-04
                YY=  0.12460138E+01         YZ=  0.91998570E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7243961E-06 Y= -0.3631544E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.36239520E-05         XZ=  0.29780812E-01
                YY= -0.10161934E+02         YZ=  0.29784732E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50045948E-05 Y= -0.65369470E-11 Z=  0.13752774E-08   Total=     0.00000500
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461084E+01         XY=  0.47286506E-04         XZ=  0.45141138E-04
                YY=  0.12460138E+01         YZ=  0.12936322E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2185891E-06 Y= -0.3635156E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.10949193E-05         XZ=  0.29783283E-01
                YY= -0.10161934E+02         YZ=  0.29784733E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60080324E-05 Y= -0.78335743E-11 Z=  0.17565086E-08   Total=     0.00000601
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461274E+01         XY=  0.56767605E-04         XZ=  0.56846975E-04
                YY=  0.12460138E+01         YZ=  0.16527210E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2935100E-06 Y= -0.3643102E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.14655726E-05         XZ=  0.29785878E-01
                YY= -0.10161934E+02         YZ=  0.29784734E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47399282E-05 Y= -0.65645175E-11 Z=  0.21230113E-08   Total=     0.00000474
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461034E+01         XY=  0.44785769E-04         XZ=  0.46985449E-04
                YY=  0.12460138E+01         YZ=  0.20000292E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6157252E-06 Y= -0.3652493E-09 Z=  0.5956947E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161928E+02         XY=  0.30766466E-05         XZ=  0.29787599E-01
                YY= -0.10161934E+02         YZ=  0.29784735E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16351716E-05 Y= -0.35167040E-11 Z=  0.24943555E-08   Total=     0.00000164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460447E+01         XY=  0.15450099E-04         XZ=  0.18837709E-04
                YY=  0.12460138E+01         YZ=  0.23534055E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6200037E-06 Y= -0.3658995E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161928E+02         XY=  0.30980385E-05         XZ=  0.29787759E-01
                YY= -0.10161934E+02         YZ=  0.29784736E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21649651E-05 Y= -0.35762696E-12 Z=  0.28945352E-08   Total=     0.00000216
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459729E+01         XY= -0.20455959E-04         XZ= -0.17290014E-04
                YY=  0.12460138E+01         YZ=  0.27341381E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2965347E-06 Y= -0.3666942E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.14806942E-05         XZ=  0.29786250E-01
                YY= -0.10161934E+02         YZ=  0.29784738E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52323380E-05 Y=  0.11291923E-11 Z=  0.33326316E-08   Total=     0.00000523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459150E+01         XY= -0.49438418E-04         XZ= -0.47842913E-04
                YY=  0.12460138E+01         YZ=  0.31493208E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2400856E-06 Y= -0.3677778E-09 Z=  0.5956948E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.12024078E-05         XZ=  0.29783597E-01
                YY= -0.10161934E+02         YZ=  0.29784739E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63882270E-05 Y= -0.10622163E-12 Z=  0.37889839E-08   Total=     0.00000639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458931E+01         XY= -0.60359999E-04         XZ= -0.61102494E-04
                YY=  0.12460138E+01         YZ=  0.35794915E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7918760E-06 Y= -0.3682835E-09 Z=  0.5956949E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.39613599E-05         XZ=  0.29780770E-01
                YY= -0.10161934E+02         YZ=  0.29784741E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51556922E-05 Y= -0.38457571E-11 Z=  0.42174461E-08   Total=     0.00000516
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459164E+01         XY= -0.48714268E-04         XZ= -0.51677592E-04
                YY=  0.12460138E+01         YZ=  0.39812165E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1151049E-05 Y= -0.3688614E-09 Z=  0.5956949E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.57572270E-05         XZ=  0.29778827E-01
                YY= -0.10161934E+02         YZ=  0.29784743E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19548829E-05 Y= -0.86455180E-11 Z=  0.45650578E-08   Total=     0.00000195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459769E+01         XY= -0.18471048E-04         XZ= -0.22684433E-04
                YY=  0.12460138E+01         YZ=  0.43056503E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1178838E-05 Y= -0.3700172E-09 Z=  0.5956949E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.58961766E-05         XZ=  0.29778510E-01
                YY= -0.10161934E+02         YZ=  0.29784745E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20380112E-05 Y= -0.12453986E-10 Z=  0.47994709E-08   Total=     0.00000204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460523E+01         XY=  0.19256298E-04         XZ=  0.15260355E-04
                YY=  0.12460138E+01         YZ=  0.45239378E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8597202E-06 Y= -0.3709564E-09 Z=  0.5956950E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.43005927E-05         XZ=  0.29779959E-01
                YY= -0.10161934E+02         YZ=  0.29784747E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53217875E-05 Y= -0.13535080E-10 Z=  0.49285078E-08   Total=     0.00000532
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461144E+01         XY=  0.50283477E-04         XZ=  0.47919320E-04
                YY=  0.12460138E+01         YZ=  0.46449276E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3098714E-06 Y= -0.3717510E-09 Z=  0.5956950E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.15513539E-05         XZ=  0.29782644E-01
                YY= -0.10161934E+02         YZ=  0.29784749E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66341407E-05 Y= -0.11275374E-10 Z=  0.49997725E-08   Total=     0.00000663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461392E+01         XY=  0.62683439E-04         XZ=  0.62775980E-04
                YY=  0.12460138E+01         YZ=  0.47141246E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2643849E-06 Y= -0.3719677E-09 Z=  0.5956951E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13199248E-05         XZ=  0.29785554E-01
                YY= -0.10161934E+02         YZ=  0.29784751E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54372919E-05 Y= -0.64990008E-11 Z=  0.50793606E-08   Total=     0.00000544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461166E+01         XY=  0.51374902E-04         XZ=  0.53839929E-04
                YY=  0.12460138E+01         YZ=  0.47933057E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6434093E-06 Y= -0.3712453E-09 Z=  0.5956951E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161928E+02         XY=  0.32150448E-05         XZ=  0.29787574E-01
                YY= -0.10161934E+02         YZ=  0.29784753E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21387232E-05 Y= -0.11343233E-11 Z=  0.52205653E-08   Total=     0.00000214
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460542E+01         XY=  0.20207995E-04         XZ=  0.24072036E-04
                YY=  0.12460138E+01         YZ=  0.49312204E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6778329E-06 Y= -0.3698728E-09 Z=  0.5956951E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161928E+02         XY=  0.33871642E-05         XZ=  0.29787907E-01
                YY= -0.10161934E+02         YZ=  0.29784755E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20433102E-05 Y=  0.26279958E-11 Z=  0.54389728E-08   Total=     0.00000204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459752E+01         XY= -0.19306459E-04         XZ= -0.15550662E-04
                YY=  0.12460138E+01         YZ=  0.51407617E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3471431E-06 Y= -0.3694393E-09 Z=  0.5956952E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.17337157E-05         XZ=  0.29786387E-01
                YY= -0.10161934E+02         YZ=  0.29784758E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55267811E-05 Y=  0.33104498E-11 Z=  0.57065618E-08   Total=     0.00000553
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459094E+01         XY= -0.52220482E-04         XZ= -0.50053220E-04
                YY=  0.12460138E+01         YZ=  0.53942067E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2297095E-06 Y= -0.3694393E-09 Z=  0.5956952E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.11505462E-05         XZ=  0.29783554E-01
                YY= -0.10161934E+02         YZ=  0.29784760E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69626636E-05 Y=  0.81488814E-12 Z=  0.59669303E-08   Total=     0.00000696
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458822E+01         XY= -0.65787629E-04         XZ= -0.66104889E-04
                YY=  0.12460138E+01         YZ=  0.56381680E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8368997E-06 Y= -0.3688614E-09 Z=  0.5956953E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.41864981E-05         XZ=  0.29780464E-01
                YY= -0.10161934E+02         YZ=  0.29784763E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57572480E-05 Y= -0.35267767E-11 Z=  0.61630028E-08   Total=     0.00000576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459050E+01         XY= -0.54398143E-04         XZ= -0.57167260E-04
                YY=  0.12460138E+01         YZ=  0.58198212E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1242473E-05 Y= -0.3694393E-09 Z=  0.5956954E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.62143674E-05         XZ=  0.29778293E-01
                YY= -0.10161934E+02         YZ=  0.29784766E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23180583E-05 Y= -0.75449942E-11 Z=  0.62629418E-08   Total=     0.00000232
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459700E+01         XY= -0.21902548E-04         XZ= -0.26163006E-04
                YY=  0.12460138E+01         YZ=  0.59108962E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1287183E-05 Y= -0.3707396E-09 Z=  0.5956954E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.64379181E-05         XZ=  0.29777885E-01
                YY= -0.10161934E+02         YZ=  0.29784768E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20781178E-05 Y= -0.92046655E-11 Z=  0.62720653E-08   Total=     0.00000208
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460531E+01         XY=  0.19635281E-04         XZ=  0.15421629E-04
                YY=  0.12460138E+01         YZ=  0.59181272E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9475145E-06 Y= -0.3711731E-09 Z=  0.5956955E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161944E+02         XY= -0.47395815E-05         XZ=  0.29779425E-01
                YY= -0.10161934E+02         YZ=  0.29784771E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57544293E-05 Y= -0.75203332E-11 Z=  0.62264655E-08   Total=     0.00000575
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461226E+01         XY=  0.54371406E-04         XZ=  0.51747582E-04
                YY=  0.12460138E+01         YZ=  0.58764503E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3480298E-06 Y= -0.3717510E-09 Z=  0.5956955E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.17421602E-05         XZ=  0.29782346E-01
                YY= -0.10161934E+02         YZ=  0.29784774E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72693442E-05 Y= -0.30013338E-11 Z=  0.61733917E-08   Total=     0.00000727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461512E+01         XY=  0.68685321E-04         XZ=  0.68616047E-04
                YY=  0.12460138E+01         YZ=  0.58300953E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2830450E-06 Y= -0.3730514E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.14132144E-05         XZ=  0.29785536E-01
                YY= -0.10161934E+02         YZ=  0.29784776E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59784181E-05 Y=  0.25728267E-11 Z=  0.61491023E-08   Total=     0.00000598
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461268E+01         XY=  0.56487889E-04         XZ=  0.58985252E-04
                YY=  0.12460138E+01         YZ=  0.58118364E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6993246E-06 Y= -0.3729069E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.34946135E-05         XZ=  0.29787747E-01
                YY= -0.10161934E+02         YZ=  0.29784779E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23039701E-05 Y=  0.69429590E-11 Z=  0.61645013E-08   Total=     0.00000230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460574E+01         XY=  0.21769428E-04         XZ=  0.25871993E-04
                YY=  0.12460138E+01         YZ=  0.58300859E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7309498E-06 Y= -0.3718233E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.36527418E-05         XZ=  0.29788079E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23993780E-05 Y=  0.83695853E-11 Z=  0.62034749E-08   Total=     0.00000240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459685E+01         XY= -0.22670758E-04         XZ= -0.18550993E-04
                YY=  0.12460138E+01         YZ=  0.58681555E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3521867E-06 Y= -0.3717510E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.17589298E-05         XZ=  0.29786335E-01
                YY= -0.10161934E+02         YZ=  0.29784784E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63425721E-05 Y=  0.63934538E-11 Z=  0.62324353E-08   Total=     0.00000634
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458940E+01         XY= -0.59928561E-04         XZ= -0.57415127E-04
                YY=  0.12460138E+01         YZ=  0.58939167E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3048591E-06 Y= -0.3723289E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.15262985E-05         XZ=  0.29783116E-01
                YY= -0.10161934E+02         YZ=  0.29784787E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.79813752E-05 Y=  0.20198991E-11 Z=  0.62154220E-08   Total=     0.00000798
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458630E+01         XY= -0.75413047E-04         XZ= -0.75547892E-04
                YY=  0.12460138E+01         YZ=  0.58742254E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9971418E-06 Y= -0.3731958E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161944E+02         XY= -0.49877135E-05         XZ=  0.29779606E-01
                YY= -0.10161934E+02         YZ=  0.29784789E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66196067E-05 Y= -0.27466224E-11 Z=  0.61285313E-08   Total=     0.00000662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458887E+01         XY= -0.62546245E-04         XZ= -0.65379030E-04
                YY=  0.12460138E+01         YZ=  0.57881688E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1461636E-05 Y= -0.3744962E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161949E+02         XY= -0.73101850E-05         XZ=  0.29777135E-01
                YY= -0.10161934E+02         YZ=  0.29784792E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27008471E-05 Y= -0.57980317E-11 Z=  0.59691587E-08   Total=     0.00000270
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459628E+01         XY= -0.25519361E-04         XZ= -0.30063327E-04
                YY=  0.12460138E+01         YZ=  0.56350503E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1516333E-05 Y= -0.3752186E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161949E+02         XY= -0.75836730E-05         XZ=  0.29776665E-01
                YY= -0.10161934E+02         YZ=  0.29784795E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23328407E-05 Y= -0.58412198E-11 Z=  0.57577053E-08   Total=     0.00000233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460579E+01         XY=  0.22042095E-04         XZ=  0.17461944E-04
                YY=  0.12460138E+01         YZ=  0.54352331E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1132498E-05 Y= -0.3758687E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.56645020E-05         XZ=  0.29778413E-01
                YY= -0.10161934E+02         YZ=  0.29784797E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65721663E-05 Y= -0.29323503E-11 Z=  0.55312507E-08   Total=     0.00000657
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461380E+01         XY=  0.62097944E-04         XZ=  0.59226126E-04
                YY=  0.12460138E+01         YZ=  0.52237129E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4495104E-06 Y= -0.3755798E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.22495630E-05         XZ=  0.29781748E-01
                YY= -0.10161934E+02         YZ=  0.29784799E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83666563E-05 Y=  0.16001373E-11 Z=  0.53309721E-08   Total=     0.00000837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461719E+01         XY=  0.79053460E-04         XZ=  0.79041933E-04
                YY=  0.12460138E+01         YZ=  0.50382924E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2748980E-06 Y= -0.3737738E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.13724803E-05         XZ=  0.29785415E-01
                YY= -0.10161934E+02         YZ=  0.29784801E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69693338E-05 Y=  0.57911506E-11 Z=  0.51876330E-08   Total=     0.00000697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461455E+01         XY=  0.65850716E-04         XZ=  0.68803160E-04
                YY=  0.12460138E+01         YZ=  0.49063992E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7613404E-06 Y= -0.3723289E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.38046960E-05         XZ=  0.29788003E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28478038E-05 Y=  0.79302353E-11 Z=  0.51109583E-08   Total=     0.00000285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460676E+01         XY=  0.26907922E-04         XZ=  0.31809256E-04
                YY=  0.12460138E+01         YZ=  0.48357905E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8161208E-06 Y= -0.3714621E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.40786002E-05         XZ=  0.29788490E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24675204E-05 Y=  0.73035038E-11 Z=  0.50877045E-08   Total=     0.00000247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459672E+01         XY= -0.23314620E-04         XZ= -0.18245396E-04
                YY=  0.12460138E+01         YZ=  0.48133499E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4079084E-06 Y= -0.3710286E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161930E+02         XY=  0.20375419E-05         XZ=  0.29786640E-01
                YY= -0.10161934E+02         YZ=  0.29784808E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69507599E-05 Y=  0.44632265E-11 Z=  0.50895097E-08   Total=     0.00000695
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458825E+01         XY= -0.65675121E-04         XZ= -0.62330325E-04
                YY=  0.12460138E+01         YZ=  0.48127309E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3166494E-06 Y= -0.3700895E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.15852461E-05         XZ=  0.29783113E-01
                YY= -0.10161934E+02         YZ=  0.29784810E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88536649E-05 Y=  0.92428164E-12 Z=  0.50867649E-08   Total=     0.00000885
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458465E+01         XY= -0.83655001E-04         XZ= -0.83321798E-04
                YY=  0.12460138E+01         YZ=  0.48072138E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1085856E-05 Y= -0.3696560E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.54312814E-05         XZ=  0.29779231E-01
                YY= -0.10161934E+02         YZ=  0.29784812E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.73893392E-05 Y= -0.15508591E-11 Z=  0.50615649E-08   Total=     0.00000739
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458742E+01         XY= -0.69819152E-04         XZ= -0.72672149E-04
                YY=  0.12460138E+01         YZ=  0.47813507E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1605471E-05 Y= -0.3704507E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161950E+02         XY= -0.80293559E-05         XZ=  0.29776477E-01
                YY= -0.10161934E+02         YZ=  0.29784814E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30587254E-05 Y= -0.17390225E-11 Z=  0.50132294E-08   Total=     0.00000306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459560E+01         XY= -0.28900783E-04         XZ= -0.33903704E-04
                YY=  0.12460138E+01         YZ=  0.47355236E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1672146E-05 Y= -0.3713176E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161951E+02         XY= -0.83627307E-05         XZ=  0.29775923E-01
                YY= -0.10161934E+02         YZ=  0.29784816E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25154323E-05 Y=  0.53957109E-12 Z=  0.49537143E-08   Total=     0.00000252
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460613E+01         XY=  0.23767396E-04         XZ=  0.18500658E-04
                YY=  0.12460138E+01         YZ=  0.46811913E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1254063E-05 Y= -0.3716065E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.62723152E-05         XZ=  0.29777814E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.71939046E-05 Y=  0.44088393E-11 Z=  0.48959024E-08   Total=     0.00000719
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461497E+01         XY=  0.67972589E-04         XZ=  0.64481401E-04
                YY=  0.12460138E+01         YZ=  0.46298076E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5067853E-06 Y= -0.3717510E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.25359213E-05         XZ=  0.29781450E-01
                YY= -0.10161934E+02         YZ=  0.29784820E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.91403783E-05 Y=  0.83925010E-11 Z=  0.48423165E-08   Total=     0.00000914
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461865E+01         XY=  0.86364138E-04         XZ=  0.86065400E-04
                YY=  0.12460138E+01         YZ=  0.45825324E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2832395E-06 Y= -0.3703062E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.14142062E-05         XZ=  0.29785441E-01
                YY= -0.10161934E+02         YZ=  0.29784822E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.75412796E-05 Y=  0.11104227E-10 Z=  0.47822115E-08   Total=     0.00000754
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461563E+01         XY=  0.71254870E-04         XZ=  0.74383225E-04
                YY=  0.12460138E+01         YZ=  0.45280562E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8071355E-06 Y= -0.3687169E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.40336907E-05         XZ=  0.29788232E-01
                YY= -0.10161934E+02         YZ=  0.29784824E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29438549E-05 Y=  0.11844475E-10 Z=  0.47000901E-08   Total=     0.00000294
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460694E+01         XY=  0.27815510E-04         XZ=  0.33301421E-04
                YY=  0.12460138E+01         YZ=  0.44511430E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8530335E-06 Y= -0.3681390E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.42631863E-05         XZ=  0.29788704E-01
                YY= -0.10161934E+02         YZ=  0.29784826E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29272142E-05 Y=  0.10840368E-10 Z=  0.45907330E-08   Total=     0.00000293
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459585E+01         XY= -0.27658063E-04         XZ= -0.21811781E-04
                YY=  0.12460138E+01         YZ=  0.43470343E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3903804E-06 Y= -0.3679223E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161930E+02         XY=  0.19499254E-05         XZ=  0.29786613E-01
                YY= -0.10161934E+02         YZ=  0.29784828E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.78144183E-05 Y=  0.90468895E-11 Z=  0.44703250E-08   Total=     0.00000781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458661E+01         XY= -0.73835467E-04         XZ= -0.69808556E-04
                YY=  0.12460138E+01         YZ=  0.42318049E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4143023E-06 Y= -0.3675611E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.20734847E-05         XZ=  0.29782710E-01
                YY= -0.10161934E+02         YZ=  0.29784830E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97925774E-05 Y=  0.76336567E-11 Z=  0.43746338E-08   Total=     0.00000979
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458287E+01         XY= -0.92526375E-04         XZ= -0.91843974E-04
                YY=  0.12460138E+01         YZ=  0.41402209E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1257739E-05 Y= -0.3669109E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.62906672E-05         XZ=  0.29778465E-01
                YY= -0.10161934E+02         YZ=  0.29784831E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80231302E-05 Y=  0.74197226E-11 Z=  0.43433656E-08   Total=     0.00000802
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458622E+01         XY= -0.75807524E-04         XZ= -0.78731984E-04
                YY=  0.12460138E+01         YZ=  0.41104887E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1814481E-05 Y= -0.3656106E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161952E+02         XY= -0.90743698E-05         XZ=  0.29775516E-01
                YY= -0.10161934E+02         YZ=  0.29784833E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31022558E-05 Y=  0.85249839E-11 Z=  0.43992669E-08   Total=     0.00000310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459551E+01         XY= -0.29311988E-04         XZ= -0.34706434E-04
                YY=  0.12460138E+01         YZ=  0.41642162E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1862420E-05 Y= -0.3643825E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.93140635E-05         XZ=  0.29775038E-01
                YY= -0.10161934E+02         YZ=  0.29784835E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31404443E-05 Y=  0.10384976E-10 Z=  0.45345746E-08   Total=     0.00000314
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460731E+01         XY=  0.29672997E-04         XZ=  0.23941950E-04
                YY=  0.12460138E+01         YZ=  0.42936164E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1370867E-05 Y= -0.3631544E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161948E+02         XY= -0.68562936E-05         XZ=  0.29777281E-01
                YY= -0.10161934E+02         YZ=  0.29784837E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83252922E-05 Y=  0.12091042E-10 Z=  0.47131694E-08   Total=     0.00000833
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461711E+01         XY=  0.78662726E-04         XZ=  0.74923275E-04
                YY=  0.12460138E+01         YZ=  0.44638126E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5163695E-06 Y= -0.3614206E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.25838014E-05         XZ=  0.29781451E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10432393E-04 Y=  0.12864947E-10 Z=  0.48875184E-08   Total=     0.00001043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462109E+01         XY=  0.98571952E-04         XZ=  0.98446101E-04
                YY=  0.12460138E+01         YZ=  0.46292421E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3812472E-06 Y= -0.3601925E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.19042862E-05         XZ=  0.29785995E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.85898624E-05 Y=  0.12426066E-10 Z=  0.50210575E-08   Total=     0.00000859
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461761E+01         XY=  0.81162554E-04         XZ=  0.84913335E-04
                YY=  0.12460138E+01         YZ=  0.47551096E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9794314E-06 Y= -0.3594701E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161925E+02         XY=  0.48952117E-05         XZ=  0.29789191E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34328100E-05 Y=  0.11076387E-10 Z=  0.51036301E-08   Total=     0.00000343
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460786E+01         XY=  0.32435458E-04         XZ=  0.38823928E-04
                YY=  0.12460138E+01         YZ=  0.48320507E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1044503E-05 Y= -0.3583865E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161924E+02         XY=  0.52205738E-05         XZ=  0.29789797E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31136450E-05 Y=  0.94820258E-11 Z=  0.51515889E-08   Total=     0.00000311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459549E+01         XY= -0.29419592E-04         XZ= -0.22696873E-04
                YY=  0.12460138E+01         YZ=  0.48760588E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5437073E-06 Y= -0.3570861E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.27165987E-05         XZ=  0.29787548E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85535273E-05 Y=  0.82861811E-11 Z=  0.51931112E-08   Total=     0.00000855
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458521E+01         XY= -0.80819042E-04         XZ= -0.76265755E-04
                YY=  0.12460137E+01         YZ=  0.49142909E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3384892E-06 Y= -0.3562193E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161938E+02         XY= -0.16943808E-05         XZ=  0.29783271E-01
                YY= -0.10161934E+02         YZ=  0.29784849E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10772256E-04 Y=  0.77649000E-11 Z=  0.52482390E-08   Total=     0.00001077
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458102E+01         XY= -0.10178299E-03         XZ= -0.10113645E-03
                YY=  0.12460137E+01         YZ=  0.49659228E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1267498E-05 Y= -0.3557858E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.63394222E-05         XZ=  0.29778588E-01
                YY= -0.10161934E+02         YZ=  0.29784851E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88583155E-05 Y=  0.77055393E-11 Z=  0.53164538E-08   Total=     0.00000886
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458463E+01         XY= -0.83698879E-04         XZ= -0.87234404E-04
                YY=  0.12460137E+01         YZ=  0.50303048E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1884700E-05 Y= -0.3565082E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.94254276E-05         XZ=  0.29775305E-01
                YY= -0.10161934E+02         YZ=  0.29784853E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34748912E-05 Y=  0.75654421E-11 Z=  0.53796920E-08   Total=     0.00000347
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459481E+01         XY= -0.32832892E-04         XZ= -0.39217218E-04
                YY=  0.12460137E+01         YZ=  0.50899320E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1944931E-05 Y= -0.3573751E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161954E+02         XY= -0.97265833E-05         XZ=  0.29774724E-01
                YY= -0.10161934E+02         YZ=  0.29784855E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33692897E-05 Y=  0.68162488E-11 Z=  0.54179431E-08   Total=     0.00000337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460774E+01         XY=  0.31835239E-04         XZ=  0.25069951E-04
                YY=  0.12460137E+01         YZ=  0.51254633E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1412631E-05 Y= -0.3570861E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161948E+02         XY= -0.70650803E-05         XZ=  0.29777134E-01
                YY= -0.10161934E+02         YZ=  0.29784857E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.90711045E-05 Y=  0.52801480E-11 Z=  0.54254835E-08   Total=     0.00000907
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461852E+01         XY=  0.85709566E-04         XZ=  0.81239634E-04
                YY=  0.12460137E+01         YZ=  0.51313387E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4789689E-06 Y= -0.3574473E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.23967671E-05         XZ=  0.29781679E-01
                YY= -0.10161934E+02         YZ=  0.29784860E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11425152E-04 Y=  0.32712361E-11 Z=  0.54157216E-08   Total=     0.00001143
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462296E+01         XY=  0.10795207E-03         XZ=  0.10763272E-03
                YY=  0.12460137E+01         YZ=  0.51204761E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5079520E-06 Y= -0.3579530E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.25378373E-05         XZ=  0.29786674E-01
                YY= -0.10161934E+02         YZ=  0.29784862E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.94786764E-05 Y=  0.14586532E-11 Z=  0.54113460E-08   Total=     0.00000948
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461929E+01         XY=  0.89560526E-04         XZ=  0.93690113E-04
                YY=  0.12460137E+01         YZ=  0.51148584E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1174380E-05 Y= -0.3580253E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161923E+02         XY=  0.58699802E-05         XZ=  0.29790235E-01
                YY= -0.10161934E+02         YZ=  0.29784864E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39179625E-05 Y=  0.51570298E-12 Z=  0.54272517E-08   Total=     0.00000392
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460878E+01         XY=  0.37019385E-04         XZ=  0.44189851E-04
                YY=  0.12460137E+01         YZ=  0.51291117E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1264190E-05 Y= -0.3578808E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161922E+02         XY=  0.63190273E-05         XZ=  0.29791002E-01
                YY= -0.10161934E+02         YZ=  0.29784866E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31697063E-05 Y=  0.73856742E-12 Z=  0.54585738E-08   Total=     0.00000317
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459538E+01         XY= -0.29949378E-04         XZ= -0.22344542E-04
                YY=  0.12460137E+01         YZ=  0.51588871E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7392619E-06 Y= -0.3567249E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.36943897E-05         XZ=  0.29788667E-01
                YY= -0.10161934E+02         YZ=  0.29784868E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.90764200E-05 Y=  0.18428258E-11 Z=  0.54822124E-08   Total=     0.00000908
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458422E+01         XY= -0.85759722E-04         XZ= -0.80542875E-04
                YY=  0.12460137E+01         YZ=  0.51821291E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2022747E-06 Y= -0.3562915E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.10132933E-05         XZ=  0.29784116E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11504820E-04 Y=  0.30594091E-11 Z=  0.54711160E-08   Total=     0.00001150
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457963E+01         XY= -0.10870476E-03         XZ= -0.10782782E-03
                YY=  0.12460137E+01         YZ=  0.51726464E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1198292E-05 Y= -0.3552079E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.59933774E-05         XZ=  0.29779100E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.94578927E-05 Y=  0.34988636E-11 Z=  0.54124835E-08   Total=     0.00000946
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458350E+01         XY= -0.89364102E-04         XZ= -0.93137366E-04
                YY=  0.12460137E+01         YZ=  0.51176103E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1859143E-05 Y= -0.3538353E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.92976324E-05         XZ=  0.29775584E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36433596E-05 Y=  0.26117570E-11 Z=  0.53184538E-08   Total=     0.00000364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459449E+01         XY= -0.34424735E-04         XZ= -0.41365909E-04
                YY=  0.12460137E+01         YZ=  0.50280340E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1916989E-05 Y= -0.3536908E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.95868594E-05         XZ=  0.29774991E-01
                YY= -0.10161934E+02         YZ=  0.29784877E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37701202E-05 Y=  0.51205265E-12 Z=  0.52216669E-08   Total=     0.00000377
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460850E+01         XY=  0.35622478E-04         XZ=  0.28248473E-04
                YY=  0.12460138E+01         YZ=  0.49348502E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1330868E-05 Y= -0.3536186E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161948E+02         XY= -0.66562551E-05         XZ=  0.29777647E-01
                YY= -0.10161934E+02         YZ=  0.29784879E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.99613304E-05 Y= -0.20148911E-11 Z=  0.51567646E-08   Total=     0.00000996
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462020E+01         XY=  0.94120913E-04         XZ=  0.89267290E-04
                YY=  0.12460138E+01         YZ=  0.48714400E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3064897E-06 Y= -0.3543410E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.15343659E-05         XZ=  0.29782636E-01
                YY= -0.10161934E+02         YZ=  0.29784881E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12528426E-04 Y= -0.38455887E-11 Z=  0.51380374E-08   Total=     0.00001253
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462505E+01         XY=  0.11837643E-03         XZ=  0.11807627E-03
                YY=  0.12460138E+01         YZ=  0.48522368E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7783078E-06 Y= -0.3549189E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.38896206E-05         XZ=  0.29788127E-01
                YY= -0.10161934E+02         YZ=  0.29784883E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10417802E-04 Y= -0.40487025E-11 Z=  0.51474007E-08   Total=     0.00001042
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462106E+01         XY=  0.98433929E-04         XZ=  0.10299664E-03
                YY=  0.12460138E+01         YZ=  0.48609278E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1515447E-05 Y= -0.3547744E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161919E+02         XY=  0.75753120E-05         XZ=  0.29792064E-01
                YY= -0.10161934E+02         YZ=  0.29784885E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43515107E-05 Y= -0.23626666E-11 Z=  0.51414540E-08   Total=     0.00000435
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460960E+01         XY=  0.41115795E-04         XZ=  0.48975159E-04
                YY=  0.12460138E+01         YZ=  0.48567237E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1622586E-05 Y= -0.3545577E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161918E+02         XY=  0.81110070E-05         XZ=  0.29792947E-01
                YY= -0.10161934E+02         YZ=  0.29784888E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34186859E-05 Y=  0.61790999E-12 Z=  0.50743746E-08   Total=     0.00000342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459492E+01         XY= -0.32301895E-04         XZ= -0.24017523E-04
                YY=  0.12460138E+01         YZ=  0.47958340E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1053660E-05 Y= -0.3536908E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161924E+02         XY=  0.52663779E-05         XZ=  0.29790417E-01
                YY= -0.10161934E+02         YZ=  0.29784890E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.99473146E-05 Y=  0.36573374E-11 Z=  0.49228216E-08   Total=     0.00000995
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458258E+01         XY= -0.93988467E-04         XZ= -0.88371442E-04
                YY=  0.12460138E+01         YZ=  0.46551771E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2085656E-07 Y= -0.3523905E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161934E+02         XY=  0.10236495E-06         XZ=  0.29785419E-01
                YY= -0.10161934E+02         YZ=  0.29784892E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12711131E-04 Y=  0.54142408E-11 Z=  0.46979446E-08   Total=     0.00001271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457736E+01         XY= -0.12010273E-03         XZ= -0.11927659E-03
                YY=  0.12460138E+01         YZ=  0.44441705E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1081944E-05 Y= -0.3508012E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.54116364E-05         XZ=  0.29779860E-01
                YY= -0.10161934E+02         YZ=  0.29784893E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10582787E-04 Y=  0.50575812E-11 Z=  0.44384130E-08   Total=     0.00001058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458138E+01         XY= -0.99992802E-04         XZ= -0.10427491E-03
                YY=  0.12460138E+01         YZ=  0.41986605E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1826713E-05 Y= -0.3507290E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.91354801E-05         XZ=  0.29775898E-01
                YY= -0.10161934E+02         YZ=  0.29784895E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42871264E-05 Y=  0.26768560E-11 Z=  0.41899286E-08   Total=     0.00000429
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459328E+01         XY= -0.40507449E-04         XZ= -0.48252860E-04
                YY=  0.12460138E+01         YZ=  0.39619040E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1914529E-05 Y= -0.3521015E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.95745597E-05         XZ=  0.29775121E-01
                YY= -0.10161934E+02         YZ=  0.29784897E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38433722E-05 Y= -0.71573291E-12 Z=  0.39830448E-08   Total=     0.00000384
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460864E+01         XY=  0.36314598E-04         XZ=  0.28116339E-04
                YY=  0.12460138E+01         YZ=  0.37636138E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1292350E-05 Y= -0.3534019E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.64636640E-05         XZ=  0.29777926E-01
                YY= -0.10161934E+02         YZ=  0.29784899E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10732472E-04 Y= -0.36103528E-11 Z=  0.38199917E-08   Total=     0.00001073
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462166E+01         XY=  0.10140713E-03         XZ=  0.95999205E-04
                YY=  0.12460138E+01         YZ=  0.36071549E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1777785E-06 Y= -0.3536186E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161936E+02         XY= -0.89081026E-06         XZ=  0.29783350E-01
                YY= -0.10161934E+02         YZ=  0.29784900E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13723975E-04 Y= -0.46694558E-11 Z=  0.36754107E-08   Total=     0.00001372
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462731E+01         XY=  0.12967273E-03         XZ=  0.12928910E-03
                YY=  0.12460138E+01         YZ=  0.34696793E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1019341E-05 Y= -0.3536186E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161924E+02         XY=  0.50947872E-05         XZ=  0.29789407E-01
                YY= -0.10161934E+02         YZ=  0.29784902E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11605833E-04 Y= -0.33402364E-11 Z=  0.35096073E-08   Total=     0.00001161
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462331E+01         XY=  0.10965920E-03         XZ=  0.11464878E-03
                YY=  0.12460138E+01         YZ=  0.33141388E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1850390E-05 Y= -0.3536908E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161916E+02         XY=  0.92500316E-05         XZ=  0.29793838E-01
                YY= -0.10161934E+02         YZ=  0.29784903E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51001756E-05 Y= -0.12779341E-12 Z=  0.32876311E-08   Total=     0.00000510
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461102E+01         XY=  0.48189675E-04         XZ=  0.56849076E-04
                YY=  0.12460138E+01         YZ=  0.31070867E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1999086E-05 Y= -0.3530407E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.99935089E-05         XZ=  0.29794964E-01
                YY= -0.10161934E+02         YZ=  0.29784904E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33779830E-05 Y=  0.36045220E-11 Z=  0.29949551E-08   Total=     0.00000338
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459500E+01         XY= -0.31917280E-04         XZ= -0.22726754E-04
                YY=  0.12460138E+01         YZ=  0.28336595E-07         ZZ=  0.12460139E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1405051E-05 Y= -0.3522460E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161920E+02         XY=  0.70233354E-05         XZ=  0.29792345E-01
                YY= -0.10161934E+02         YZ=  0.29784906E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10614403E-04 Y=  0.62282914E-11 Z=  0.26425009E-08   Total=     0.00001061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458132E+01         XY= -0.10029152E-03         XZ= -0.93966709E-04
                YY=  0.12460138E+01         YZ=  0.25028222E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2916429E-06 Y= -0.3523905E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161931E+02         XY=  0.14562982E-05         XZ=  0.29786968E-01
                YY= -0.10161934E+02         YZ=  0.29784907E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13811988E-04 Y=  0.65744614E-11 Z=  0.22598717E-08   Total=     0.00001381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457528E+01         XY= -0.13050432E-03         XZ= -0.12940504E-03
                YY=  0.12460138E+01         YZ=  0.21415751E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9144490E-06 Y= -0.3523905E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.45741599E-05         XZ=  0.29780896E-01
                YY= -0.10161934E+02         YZ=  0.29784907E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11670584E-04 Y=  0.44629468E-11 Z=  0.18821373E-08   Total=     0.00001167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457933E+01         XY= -0.11027100E-03         XZ= -0.11480083E-03
                YY=  0.12460138E+01         YZ=  0.17829078E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1743125E-05 Y= -0.3523905E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161952E+02         XY= -0.87175379E-05         XZ=  0.29776496E-01
                YY= -0.10161934E+02         YZ=  0.29784908E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49139940E-05 Y=  0.79750767E-12 Z=  0.15377102E-08   Total=     0.00000491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459210E+01         XY= -0.46430507E-04         XZ= -0.54851135E-04
                YY=  0.12460138E+01         YZ=  0.14544212E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1860504E-05 Y= -0.3534019E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.93044330E-05         XZ=  0.29775539E-01
                YY= -0.10161934E+02         YZ=  0.29784909E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39484962E-05 Y= -0.28203502E-11 Z=  0.12415542E-08   Total=     0.00000395
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460884E+01         XY=  0.37307856E-04         XZ=  0.28246183E-04
                YY=  0.12460138E+01         YZ=  0.11715844E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1199777E-05 Y= -0.3554246E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.60008034E-05         XZ=  0.29778501E-01
                YY= -0.10161934E+02         YZ=  0.29784909E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11549663E-04 Y= -0.47899728E-11 Z=  0.99350168E-09   Total=     0.00001155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462321E+01         XY=  0.10912846E-03         XZ=  0.10296883E-03
                YY=  0.12460138E+01         YZ=  0.93556855E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7847804E-08 Y= -0.3569417E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161934E+02         XY=  0.37320175E-07         XZ=  0.29784362E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14939403E-04 Y= -0.42108989E-11 Z=  0.78006121E-09   Total=     0.00001494
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462961E+01         XY=  0.14115686E-03         XZ=  0.14038629E-03
                YY=  0.12460138E+01         YZ=  0.73437214E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1316010E-05 Y= -0.3570861E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161921E+02         XY=  0.65781302E-05         XZ=  0.29790965E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12725711E-04 Y= -0.12711227E-11 Z=  0.57965813E-09   Total=     0.00001273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462543E+01         XY=  0.12024053E-03         XZ=  0.12532261E-03
                YY=  0.12460138E+01         YZ=  0.54745337E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2230371E-05 Y= -0.3570139E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161912E+02         XY=  0.11149937E-04         XZ=  0.29795822E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56411273E-05 Y=  0.28451317E-11 Z=  0.37123845E-09   Total=     0.00000564
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461204E+01         XY=  0.53300956E-04         XZ=  0.62465841E-04
                YY=  0.12460138E+01         YZ=  0.35393675E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2397632E-05 Y= -0.3567249E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161910E+02         XY=  0.11986243E-04         XZ=  0.29797065E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36946845E-05 Y=  0.64848886E-11 Z=  0.14339670E-09   Total=     0.00000369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459440E+01         XY= -0.34909648E-04         XZ= -0.25025209E-04
                YY=  0.12460138E+01         YZ=  0.14167596E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1744243E-05 Y= -0.3560748E-09 Z=  0.5956983E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161917E+02         XY=  0.87193010E-05         XZ=  0.29794176E-01
                YY= -0.10161934E+02         YZ=  0.29784911E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11741739E-04 Y=  0.82521011E-11 Z= -0.10133748E-09   Total=     0.00001174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457919E+01         XY= -0.11094327E-03         XZ= -0.10403681E-03
                YY=  0.12460138E+01         YZ= -0.88096877E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5105210E-06 Y= -0.3554968E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161929E+02         XY=  0.25506930E-05         XZ=  0.29788215E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15380341E-04 Y=  0.76072023E-11 Z= -0.35051726E-09   Total=     0.00001538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457232E+01         XY= -0.14532309E-03         XZ= -0.14401843E-03
                YY=  0.12460138E+01         YZ= -0.32406935E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8351478E-06 Y= -0.3546300E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.41776479E-05         XZ=  0.29781444E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13118905E-04 Y=  0.50766386E-11 Z= -0.59186469E-09   Total=     0.00001312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457659E+01         XY= -0.12395564E-03         XZ= -0.12878078E-03
                YY=  0.12460138E+01         YZ= -0.55420836E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1771589E-05 Y= -0.3555691E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161952E+02         XY= -0.88598538E-05         XZ=  0.29776485E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57020406E-05 Y=  0.19901494E-11 Z= -0.82269992E-09   Total=     0.00000570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459061E+01         XY= -0.53876457E-04         XZ= -0.63024026E-04
                YY=  0.12460138E+01         YZ= -0.77488389E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1924102E-05 Y= -0.3570139E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161954E+02         XY= -0.96224168E-05         XZ=  0.29775316E-01
                YY= -0.10161934E+02         YZ=  0.29784910E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41277477E-05 Y= -0.12586654E-12 Z= -0.10526318E-08   Total=     0.00000413
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460918E+01         XY=  0.39001562E-04         XZ=  0.29025982E-04
                YY=  0.12460138E+01         YZ= -0.99391123E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1211622E-05 Y= -0.3576641E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.60600167E-05         XZ=  0.29778497E-01
                YY= -0.10161934E+02         YZ=  0.29784909E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12641325E-04 Y= -0.22248132E-12 Z= -0.12978824E-08   Total=     0.00001264
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462527E+01         XY=  0.11944321E-03         XZ=  0.11251634E-03
                YY=  0.12460138E+01         YZ= -0.12257450E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1158778E-06 Y= -0.3591089E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.57748208E-06         XZ=  0.29784930E-01
                YY= -0.10161934E+02         YZ=  0.29784909E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16535331E-04 Y=  0.18310879E-11 Z= -0.15703463E-08   Total=     0.00001654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463263E+01         XY=  0.15623625E-03         XZ=  0.15514167E-03
                YY=  0.12460138E+01         YZ= -0.14815096E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1566491E-05 Y= -0.3594701E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161919E+02         XY=  0.78305496E-05         XZ=  0.29792238E-01
                YY= -0.10161934E+02         YZ=  0.29784908E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14211609E-04 Y=  0.52275656E-11 Z= -0.18668267E-08   Total=     0.00001421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462824E+01         XY=  0.13428029E-03         XZ=  0.13962188E-03
                YY=  0.12460138E+01         YZ= -0.17588449E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2590419E-05 Y= -0.3599035E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161908E+02         XY=  0.12950195E-04         XZ=  0.29797661E-01
                YY= -0.10161934E+02         YZ=  0.29784907E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64285192E-05 Y=  0.86130553E-11 Z= -0.21644627E-08   Total=     0.00000643
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461353E+01         XY=  0.60740785E-04         XZ=  0.70667244E-04
                YY=  0.12460138E+01         YZ= -0.20372687E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2790172E-05 Y= -0.3598313E-09 Z=  0.5956982E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161906E+02         XY=  0.13948961E-04         XZ=  0.29799101E-01
                YY= -0.10161934E+02         YZ=  0.29784906E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39402366E-05 Y=  0.10697888E-10 Z= -0.24268733E-08   Total=     0.00000394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459394E+01         XY= -0.37229740E-04         XZ= -0.26368014E-04
                YY=  0.12460138E+01         YZ= -0.22834754E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2076597E-05 Y= -0.3580253E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.10381094E-04         XZ=  0.29795949E-01
                YY= -0.10161934E+02         YZ=  0.29784905E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12965729E-04 Y=  0.10807114E-10 Z= -0.26205191E-08   Total=     0.00001297
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457688E+01         XY= -0.12250828E-03         XZ= -0.11480183E-03
                YY=  0.12460138E+01         YZ= -0.24663436E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7096042E-06 Y= -0.3562193E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.35461316E-05         XZ=  0.29789346E-01
                YY= -0.10161934E+02         YZ=  0.29784904E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17152753E-04 Y=  0.91283487E-11 Z= -0.27332821E-08   Total=     0.00001715
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456897E+01         XY= -0.16206994E-03         XZ= -0.16049616E-03
                YY=  0.12460138E+01         YZ= -0.25742789E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7945526E-06 Y= -0.3553524E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.39746489E-05         XZ=  0.29781782E-01
                YY= -0.10161934E+02         YZ=  0.29784903E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14793956E-04 Y=  0.65631959E-11 Z= -0.27831669E-08   Total=     0.00001479
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457342E+01         XY= -0.13978256E-03         XZ= -0.14504390E-03
                YY=  0.12460138E+01         YZ= -0.26235561E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1856573E-05 Y= -0.3547744E-09 Z=  0.5956981E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.92847486E-05         XZ=  0.29776164E-01
                YY= -0.10161934E+02         YZ=  0.29784902E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66646260E-05 Y=  0.42755919E-11 Z= -0.28093693E-08   Total=     0.00000666
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458879E+01         XY= -0.62971549E-04         XZ= -0.73178069E-04
                YY=  0.12460138E+01         YZ= -0.26502465E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2055673E-05 Y= -0.3541965E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161955E+02         XY= -0.10280245E-04         XZ=  0.29774710E-01
                YY= -0.10161934E+02         YZ=  0.29784900E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42237662E-05 Y=  0.31612940E-11 Z= -0.28499463E-08   Total=     0.00000422
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460936E+01         XY=  0.39908836E-04         XZ=  0.28573042E-04
                YY=  0.12460138E+01         YZ= -0.26895609E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1294690E-05 Y= -0.3547744E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.64753306E-05         XZ=  0.29778077E-01
                YY= -0.10161934E+02         YZ=  0.29784899E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13736298E-04 Y=  0.34819517E-11 Z= -0.29204662E-08   Total=     0.00001374
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462734E+01         XY=  0.12978924E-03         XZ=  0.12164883E-03
                YY=  0.12460138E+01         YZ= -0.27559802E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1559800E-06 Y= -0.3561470E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.77801973E-06         XZ=  0.29785082E-01
                YY= -0.10161934E+02         YZ=  0.29784898E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18183411E-04 Y=  0.48174977E-11 Z= -0.30077201E-08   Total=     0.00001818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463574E+01         XY=  0.17180838E-03         XZ=  0.17005397E-03
                YY=  0.12460138E+01         YZ= -0.28373593E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1755053E-05 Y= -0.3562915E-09 Z=  0.5956980E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161917E+02         XY=  0.87733887E-05         XZ=  0.29793117E-01
                YY= -0.10161934E+02         YZ=  0.29784897E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15751124E-04 Y=  0.63327983E-11 Z= -0.30818306E-08   Total=     0.00001575
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463115E+01         XY=  0.14882662E-03         XZ=  0.15426946E-03
                YY=  0.12460138E+01         YZ= -0.29061539E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2893310E-05 Y= -0.3567249E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161905E+02         XY=  0.14464678E-04         XZ=  0.29799127E-01
                YY= -0.10161934E+02         YZ=  0.29784895E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72382628E-05 Y=  0.72055505E-11 Z= -0.31179561E-08   Total=     0.00000724
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461506E+01         XY=  0.68391740E-04         XZ=  0.79101187E-04
                YY=  0.12460138E+01         YZ= -0.29395754E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3126802E-05 Y= -0.3570139E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161903E+02         XY=  0.15632136E-04         XZ=  0.29800775E-01
                YY= -0.10161934E+02         YZ=  0.29784894E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41981558E-05 Y=  0.69998163E-11 Z= -0.31137752E-08   Total=     0.00000420
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459345E+01         XY= -0.39666758E-04         XZ= -0.27683964E-04
                YY=  0.12460138E+01         YZ= -0.29358011E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2351063E-05 Y= -0.3564360E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161911E+02         XY=  0.11753445E-04         XZ=  0.29797358E-01
                YY= -0.10161934E+02         YZ=  0.29784893E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14211590E-04 Y=  0.58154139E-11 Z= -0.30926891E-08   Total=     0.00001421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457452E+01         XY= -0.13428001E-03         XZ= -0.12559522E-03
                YY=  0.12460138E+01         YZ= -0.29168705E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8480651E-06 Y= -0.3560748E-09 Z=  0.5956979E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.42384579E-05         XZ=  0.29790108E-01
                YY= -0.10161934E+02         YZ=  0.29784891E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18916989E-04 Y=  0.41647923E-11 Z= -0.30908538E-08   Total=     0.00001892
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456563E+01         XY= -0.17873960E-03         XZ= -0.17676306E-03
                YY=  0.12460138E+01         YZ= -0.29165315E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8147626E-06 Y= -0.3558580E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161942E+02         XY= -0.40756787E-05         XZ=  0.29781753E-01
                YY= -0.10161934E+02         YZ=  0.29784890E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16397563E-04 Y=  0.26657085E-11 Z= -0.31346000E-08   Total=     0.00001640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457039E+01         XY= -0.15493449E-03         XZ= -0.16058221E-03
                YY=  0.12460138E+01         YZ= -0.29591532E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1997507E-05 Y= -0.3560748E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161954E+02         XY= -0.99893986E-05         XZ=  0.29775503E-01
                YY= -0.10161934E+02         YZ=  0.29784889E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.74830480E-05 Y=  0.17243949E-11 Z= -0.32204668E-08   Total=     0.00000748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458724E+01         XY= -0.70704541E-04         XZ= -0.81992063E-04
                YY=  0.12460138E+01         YZ= -0.30411256E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2232860E-05 Y= -0.3565805E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161957E+02         XY= -0.11166167E-04         XZ=  0.29773814E-01
                YY= -0.10161934E+02         YZ=  0.29784887E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45155346E-05 Y=  0.13725470E-11 Z= -0.33106005E-08   Total=     0.00000452
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460991E+01         XY=  0.42665632E-04         XZ=  0.29925202E-04
                YY=  0.12460138E+01         YZ= -0.31266462E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1409513E-05 Y= -0.3574473E-09 Z=  0.5956978E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161948E+02         XY= -0.70494279E-05         XZ=  0.29777435E-01
                YY= -0.10161934E+02         YZ=  0.29784886E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15032942E-04 Y=  0.13256667E-11 Z= -0.33489495E-08   Total=     0.00001503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462979E+01         XY=  0.14204073E-03         XZ=  0.13267723E-03
                YY=  0.12460138E+01         YZ= -0.31629803E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1780013E-06 Y= -0.3584587E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.88814438E-06         XZ=  0.29785081E-01
                YY= -0.10161934E+02         YZ=  0.29784885E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19984481E-04 Y=  0.12097633E-11 Z= -0.32908474E-08   Total=     0.00001998
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463914E+01         XY=  0.18882599E-03         XZ=  0.18647071E-03
                YY=  0.12460138E+01         YZ= -0.31082266E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1934816E-05 Y= -0.3580975E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161915E+02         XY=  0.96722192E-05         XZ=  0.29793892E-01
                YY= -0.10161934E+02         YZ=  0.29784883E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17349697E-04 Y=  0.81556689E-12 Z= -0.31283352E-08   Total=     0.00001735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463417E+01         XY=  0.16393088E-03         XZ=  0.16959442E-03
                YY=  0.12460138E+01         YZ= -0.29550355E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3188987E-05 Y= -0.3570139E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161902E+02         XY=  0.15943076E-04         XZ=  0.29800503E-01
                YY= -0.10161934E+02         YZ=  0.29784882E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.79911490E-05 Y=  0.22940730E-12 Z= -0.28951380E-08   Total=     0.00000799
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461648E+01         XY=  0.75505418E-04         XZ=  0.87131481E-04
                YY=  0.12460138E+01         YZ= -0.27352021E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3448711E-05 Y= -0.3562915E-09 Z=  0.5956977E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161900E+02         XY=  0.17241696E-04         XZ=  0.29802327E-01
                YY= -0.10161934E+02         YZ=  0.29784881E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46223205E-05 Y= -0.23348503E-12 Z= -0.26486511E-08   Total=     0.00000462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459264E+01         XY= -0.43674602E-04         XZ= -0.30485124E-04
                YY=  0.12460138E+01         YZ= -0.25027003E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2595080E-05 Y= -0.3561470E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161908E+02         XY=  0.12973539E-04         XZ=  0.29798569E-01
                YY= -0.10161934E+02         YZ=  0.29784880E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15701787E-04 Y= -0.24912841E-12 Z= -0.24413723E-08   Total=     0.00001570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457171E+01         XY= -0.14836039E-03         XZ= -0.13870731E-03
                YY=  0.12460138E+01         YZ= -0.23068711E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9349508E-06 Y= -0.3551356E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161925E+02         XY=  0.46728932E-05         XZ=  0.29790563E-01
                YY= -0.10161934E+02         YZ=  0.29784879E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20957303E-04 Y=  0.27353536E-12 Z= -0.22991918E-08   Total=     0.00002096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456178E+01         XY= -0.19801781E-03         XZ= -0.19575295E-03
                YY=  0.12460138E+01         YZ= -0.21721088E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9090582E-06 Y= -0.3547022E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.45471507E-05         XZ=  0.29781301E-01
                YY= -0.10161934E+02         YZ=  0.29784878E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18259056E-04 Y=  0.10774531E-11 Z= -0.22165771E-08   Total=     0.00001826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456687E+01         XY= -0.17252307E-03         XZ= -0.17873854E-03
                YY=  0.12460138E+01         YZ= -0.20934043E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2232154E-05 Y= -0.3548467E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161957E+02         XY= -0.11162628E-04         XZ=  0.29774312E-01
                YY= -0.10161934E+02         YZ=  0.29784877E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.84975349E-05 Y=  0.16526048E-11 Z= -0.21669505E-08   Total=     0.00000850
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458532E+01         XY= -0.80290053E-04         XZ= -0.92835766E-04
                YY=  0.12460138E+01         YZ= -0.20460702E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2516884E-05 Y= -0.3543410E-09 Z=  0.5956976E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161960E+02         XY= -0.12586279E-04         XZ=  0.29772318E-01
                YY= -0.10161934E+02         YZ=  0.29784876E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47034820E-05 Y=  0.15062171E-11 Z= -0.21197877E-08   Total=     0.00000470
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461027E+01         XY=  0.44441478E-04         XZ=  0.30201806E-04
                YY=  0.12460138E+01         YZ= -0.20016698E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1635529E-05 Y= -0.3536186E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161951E+02         XY= -0.81795009E-05         XZ=  0.29776168E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16331094E-04 Y=  0.46595346E-12 Z= -0.20557514E-08   Total=     0.00001633
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463224E+01         XY=  0.15430648E-03         XZ=  0.14376459E-03
                YY=  0.12460138E+01         YZ= -0.19420666E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9368364E-07 Y= -0.3537631E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161933E+02         XY=  0.46656136E-06         XZ=  0.29784485E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21886179E-04 Y= -0.11560153E-11 Z= -0.19741635E-08   Total=     0.00002189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464274E+01         XY=  0.20679441E-03         XZ=  0.20403755E-03
                YY=  0.12460138E+01         YZ= -0.18663504E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2020795E-05 Y= -0.3540520E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.10102117E-04         XZ=  0.29794146E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19122851E-04 Y= -0.26475135E-11 Z= -0.18904436E-08   Total=     0.00001912
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463752E+01         XY=  0.18068473E-03         XZ=  0.18689280E-03
                YY=  0.12460138E+01         YZ= -0.17884903E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3407921E-05 Y= -0.3534019E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161900E+02         XY=  0.17037750E-04         XZ=  0.29801457E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89520592E-05 Y= -0.32152390E-11 Z= -0.18254621E-08   Total=     0.00000895
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461830E+01         XY=  0.84584671E-04         XZ=  0.97512404E-04
                YY=  0.12460138E+01         YZ= -0.17275465E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3711175E-05 Y= -0.3521015E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161897E+02         XY=  0.18554018E-04         XZ=  0.29803560E-01
                YY= -0.10161934E+02         YZ=  0.29784872E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48530527E-05 Y= -0.23950180E-11 Z= -0.17935613E-08   Total=     0.00000485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459221E+01         XY= -0.45854725E-04         XZ= -0.31087437E-04
                YY=  0.12460138E+01         YZ= -0.16966908E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2792994E-05 Y= -0.3513791E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161906E+02         XY=  0.13963113E-04         XZ=  0.29799541E-01
                YY= -0.10161934E+02         YZ=  0.29784872E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17057230E-04 Y= -0.34426117E-12 Z= -0.17970261E-08   Total=     0.00001706
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456915E+01         XY= -0.16116747E-03         XZ= -0.15025376E-03
                YY=  0.12460138E+01         YZ= -0.16982267E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9821024E-06 Y= -0.3510902E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161925E+02         XY=  0.49086531E-05         XZ=  0.29790822E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22949403E-04 Y=  0.21487166E-11 Z= -0.18291301E-08   Total=     0.00002295
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455801E+01         XY= -0.21684041E-03         XZ= -0.21411335E-03
                YY=  0.12460138E+01         YZ= -0.17264675E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1044612E-05 Y= -0.3499343E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161945E+02         XY= -0.52249184E-05         XZ=  0.29780650E-01
                YY= -0.10161934E+02         YZ=  0.29784870E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20161994E-04 Y=  0.39725254E-11 Z= -0.18802234E-08   Total=     0.00002016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456328E+01         XY= -0.19050320E-03         XZ= -0.19724100E-03
                YY=  0.12460138E+01         YZ= -0.17732280E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2516046E-05 Y= -0.3479116E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161959E+02         XY= -0.12582087E-04         XZ=  0.29772884E-01
                YY= -0.10161934E+02         YZ=  0.29784869E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.96209581E-05 Y=  0.41967051E-11 Z= -0.19394836E-08   Total=     0.00000962
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458320E+01         XY= -0.90904840E-04         XZ= -0.10477717E-03
                YY=  0.12460138E+01         YZ= -0.18290537E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2861408E-05 Y= -0.3470447E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161963E+02         XY= -0.14308896E-04         XZ=  0.29770524E-01
                YY= -0.10161934E+02         YZ=  0.29784869E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47534752E-05 Y=  0.25405191E-11 Z= -0.19917799E-08   Total=     0.00000475
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461036E+01         XY=  0.44913856E-04         XZ=  0.29021998E-04
                YY=  0.12460138E+01         YZ= -0.18798705E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1932886E-05 Y= -0.3482005E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161954E+02         XY= -0.96662813E-05         XZ=  0.29774544E-01
                YY= -0.10161934E+02         YZ=  0.29784868E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17501307E-04 Y= -0.42871628E-12 Z= -0.20167048E-08   Total=     0.00001750
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463445E+01         XY=  0.16536338E-03         XZ=  0.15344012E-03
                YY=  0.12460138E+01         YZ= -0.19059079E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6973763E-07 Y= -0.3496453E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161935E+02         XY= -0.35054223E-06         XZ=  0.29783484E-01
                YY= -0.10161934E+02         YZ=  0.29784867E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23693487E-04 Y= -0.34862034E-11 Z= -0.19958056E-08   Total=     0.00002369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464615E+01         XY=  0.22387097E-03         XZ=  0.22049299E-03
                YY=  0.12460138E+01         YZ= -0.18886992E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2023550E-05 Y= -0.3503677E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.10115897E-04         XZ=  0.29793966E-01
                YY= -0.10161934E+02         YZ=  0.29784866E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20834385E-04 Y= -0.52665343E-11 Z= -0.19248512E-08   Total=     0.00002083
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464075E+01         XY=  0.19685636E-03         XZ=  0.20340354E-03
                YY=  0.12460138E+01         YZ= -0.18231076E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3541527E-05 Y= -0.3502955E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161899E+02         XY=  0.17705776E-04         XZ=  0.29801960E-01
                YY= -0.10161934E+02         YZ=  0.29784866E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.98624802E-05 Y= -0.48864372E-11 Z= -0.18210217E-08   Total=     0.00000986
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462002E+01         XY=  0.93186887E-04         XZ=  0.10725308E-03
                YY=  0.12460138E+01         YZ= -0.17246398E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3885413E-05 Y= -0.3503677E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161895E+02         XY=  0.19425204E-04         XZ=  0.29804322E-01
                YY= -0.10161934E+02         YZ=  0.29784865E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51504631E-05 Y= -0.23871428E-11 Z= -0.17180263E-08   Total=     0.00000515
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459165E+01         XY= -0.48664846E-04         XZ= -0.32415477E-04
                YY=  0.12460138E+01         YZ= -0.16251960E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2896764E-05 Y= -0.3510902E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161905E+02         XY=  0.14481959E-04         XZ=  0.29800012E-01
                YY= -0.10161934E+02         YZ=  0.29784864E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18508199E-04 Y=  0.12248898E-11 Z= -0.16517553E-08   Total=     0.00001851
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456640E+01         XY= -0.17487712E-03         XZ= -0.16271105E-03
                YY=  0.12460138E+01         YZ= -0.15595419E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9261971E-06 Y= -0.3508012E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161925E+02         XY=  0.46291271E-05         XZ=  0.29790539E-01
                YY= -0.10161934E+02         YZ=  0.29784864E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25048482E-04 Y=  0.43812431E-11 Z= -0.16450115E-08   Total=     0.00002505
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455404E+01         XY= -0.23667381E-03         XZ= -0.23339511E-03
                YY=  0.12460138E+01         YZ= -0.15505359E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1292102E-05 Y= -0.3502955E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161947E+02         XY= -0.64623670E-05         XZ=  0.29779419E-01
                YY= -0.10161934E+02         YZ=  0.29784863E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22134523E-04 Y=  0.56347809E-11 Z= -0.16981362E-08   Total=     0.00002213
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455955E+01         XY= -0.20914088E-03         XZ= -0.21621785E-03
                YY=  0.12460138E+01         YZ= -0.15997028E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2915403E-05 Y= -0.3495009E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161963E+02         XY= -0.14578870E-04         XZ=  0.29770868E-01
                YY= -0.10161934E+02         YZ=  0.29784863E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10712294E-04 Y=  0.43227351E-11 Z= -0.17881247E-08   Total=     0.00001071
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458114E+01         XY= -0.10121647E-03         XZ= -0.11615809E-03
                YY=  0.12460138E+01         YZ= -0.16858440E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3314056E-05 Y= -0.3492841E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161967E+02         XY= -0.16572134E-04         XZ=  0.29768192E-01
                YY= -0.10161934E+02         YZ=  0.29784862E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49883713E-05 Y=  0.90454865E-12 Z= -0.18768815E-08   Total=     0.00000499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461081E+01         XY=  0.47133287E-04         XZ=  0.29888891E-04
                YY=  0.12460138E+01         YZ= -0.17725680E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2317129E-05 Y= -0.3497898E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161958E+02         XY= -0.11587498E-04         XZ=  0.29772502E-01
                YY= -0.10161934E+02         YZ=  0.29784861E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19017653E-04 Y= -0.31967511E-11 Z= -0.19277741E-08   Total=     0.00001902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463732E+01         XY=  0.17969075E-03         XZ=  0.16669124E-03
                YY=  0.12460138E+01         YZ= -0.18240672E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2864956E-06 Y= -0.3501510E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161937E+02         XY= -0.14343353E-05         XZ=  0.29782245E-01
                YY= -0.10161934E+02         YZ=  0.29784861E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25957161E-04 Y= -0.61978354E-11 Z= -0.19247950E-08   Total=     0.00002596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465043E+01         XY=  0.24525957E-03         XZ=  0.24153794E-03
                YY=  0.12460138E+01         YZ= -0.18237307E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2012143E-05 Y= -0.3513069E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.10058856E-04         XZ=  0.29793754E-01
                YY= -0.10161934E+02         YZ=  0.29784860E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23008177E-04 Y= -0.67431644E-11 Z= -0.18829601E-08   Total=     0.00002301
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464486E+01         XY=  0.21739571E-03         XZ=  0.22450842E-03
                YY=  0.12460138E+01         YZ= -0.17846265E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3695575E-05 Y= -0.3525350E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161897E+02         XY=  0.18476015E-04         XZ=  0.29802612E-01
                YY= -0.10161934E+02         YZ=  0.29784859E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11113042E-04 Y= -0.45277728E-11 Z= -0.18410130E-08   Total=     0.00001111
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462238E+01         XY=  0.10500298E-03         XZ=  0.12037015E-03
                YY=  0.12460138E+01         YZ= -0.17431215E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4099719E-05 Y= -0.3528962E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161893E+02         XY=  0.20496732E-04         XZ=  0.29805335E-01
                YY= -0.10161934E+02         YZ=  0.29784859E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53377059E-05 Y= -0.46777553E-12 Z= -0.18396851E-08   Total=     0.00000534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459129E+01         XY= -0.50434016E-04         XZ= -0.32610524E-04
                YY=  0.12460138E+01         YZ= -0.17384749E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3038410E-05 Y= -0.3528239E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161904E+02         XY=  0.15190186E-04         XZ=  0.29800725E-01
                YY= -0.10161934E+02         YZ=  0.29784858E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20125272E-04 Y=  0.36748407E-11 Z= -0.19002494E-08   Total=     0.00002013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456335E+01         XY= -0.19015623E-03         XZ= -0.17672275E-03
                YY=  0.12460138E+01         YZ= -0.17922577E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8837191E-06 Y= -0.3530407E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.44167345E-05         XZ=  0.29790374E-01
                YY= -0.10161934E+02         YZ=  0.29784857E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27552813E-04 Y=  0.60574745E-11 Z= -0.20168743E-08   Total=     0.00002755
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454931E+01         XY= -0.26033630E-03         XZ= -0.25657763E-03
                YY=  0.12460138E+01         YZ= -0.19004905E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1566287E-05 Y= -0.3531129E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161950E+02         XY= -0.78332959E-05         XZ=  0.29778101E-01
                YY= -0.10161934E+02         YZ=  0.29784856E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24638874E-04 Y=  0.55735908E-11 Z= -0.21636964E-08   Total=     0.00002464
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455482E+01         XY= -0.23280356E-03         XZ= -0.24038746E-03
                YY=  0.12460138E+01         YZ= -0.20396470E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3385622E-05 Y= -0.3526795E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161968E+02         XY= -0.16929966E-04         XZ=  0.29768536E-01
                YY= -0.10161934E+02         YZ=  0.29784856E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12310457E-04 Y=  0.23550027E-11 Z= -0.23071894E-08   Total=     0.00001231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457811E+01         XY= -0.11631694E-03         XZ= -0.13259048E-03
                YY=  0.12460138E+01         YZ= -0.21779304E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3873019E-05 Y= -0.3534019E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161973E+02         XY= -0.19366951E-04         XZ=  0.29765354E-01
                YY= -0.10161934E+02         YZ=  0.29784855E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48801086E-05 Y= -0.22721081E-11 Z= -0.24159264E-08   Total=     0.00000488
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461060E+01         XY=  0.46110322E-04         XZ=  0.27179981E-04
                YY=  0.12460138E+01         YZ= -0.22845372E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2824939E-05 Y= -0.3538353E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161963E+02         XY= -0.14126554E-04         XZ=  0.29769851E-01
                YY= -0.10161934E+02         YZ=  0.29784854E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20432948E-04 Y= -0.63690382E-11 Z= -0.24676694E-08   Total=     0.00002043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463999E+01         XY=  0.19306332E-03         XZ=  0.17863726E-03
                YY=  0.12460138E+01         YZ= -0.23368408E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6228316E-06 Y= -0.3539075E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161941E+02         XY= -0.31160201E-05         XZ=  0.29780404E-01
                YY= -0.10161934E+02         YZ=  0.29784853E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28356046E-04 Y= -0.82482181E-11 Z= -0.24560838E-08   Total=     0.00002836
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465496E+01         XY=  0.26792573E-03         XZ=  0.26357155E-03
                YY=  0.12460138E+01         YZ= -0.23274568E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1902309E-05 Y= -0.3539075E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161915E+02         XY=  0.95096788E-05         XZ=  0.29793036E-01
                YY= -0.10161934E+02         YZ=  0.29784852E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25472212E-04 Y= -0.72290459E-11 Z= -0.23943861E-08   Total=     0.00002547
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464951E+01         XY=  0.24067745E-03         XZ=  0.24821144E-03
                YY=  0.12460138E+01         YZ= -0.22683128E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3780381E-05 Y= -0.3534741E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161897E+02         XY=  0.18900037E-04         XZ=  0.29802902E-01
                YY= -0.10161934E+02         YZ=  0.29784851E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12690398E-04 Y= -0.39440227E-11 Z= -0.23102371E-08   Total=     0.00001269
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462536E+01         XY=  0.11990685E-03         XZ=  0.13663525E-03
                YY=  0.12460138E+01         YZ= -0.21860764E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4271815E-05 Y= -0.3538353E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161892E+02         XY=  0.21357208E-04         XZ=  0.29806129E-01
                YY= -0.10161934E+02         YZ=  0.29784850E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52658378E-05 Y= -0.54776829E-13 Z= -0.22323191E-08   Total=     0.00000527
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459143E+01         XY= -0.49754957E-04         XZ= -0.30082285E-04
                YY=  0.12460138E+01         YZ= -0.21092338E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3155745E-05 Y= -0.3535463E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161903E+02         XY=  0.15776859E-04         XZ=  0.29801325E-01
                YY= -0.10161934E+02         YZ=  0.29784849E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21597772E-04 Y=  0.24977336E-11 Z= -0.21775888E-08   Total=     0.00002160
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456056E+01         XY= -0.20406935E-03         XZ= -0.18892941E-03
                YY=  0.12460138E+01         YZ= -0.20554218E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8246361E-06 Y= -0.3531129E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.41213145E-05         XZ=  0.29790154E-01
                YY= -0.10161934E+02         YZ=  0.29784848E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30000129E-04 Y=  0.23688587E-11 Z= -0.21477342E-08   Total=     0.00003000
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454468E+01         XY= -0.28346012E-03         XZ= -0.27871964E-03
                YY=  0.12460138E+01         YZ= -0.20273508E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1854647E-05 Y= -0.3526795E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.92751034E-05         XZ=  0.29776761E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27090368E-04 Y= -0.58921115E-12 Z= -0.21341906E-08   Total=     0.00002709
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455018E+01         XY= -0.25596688E-03         XZ= -0.26361325E-03
                YY=  0.12460138E+01         YZ= -0.20170473E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3864600E-05 Y= -0.3531129E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161973E+02         XY= -0.19324865E-04         XZ=  0.29766224E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13763981E-04 Y= -0.52732837E-11 Z= -0.21248764E-08   Total=     0.00001376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457537E+01         XY= -0.13005082E-03         XZ= -0.14736749E-03
                YY=  0.12460138E+01         YZ= -0.20121747E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4424944E-05 Y= -0.3536908E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161979E+02         XY= -0.22126590E-04         XZ=  0.29762624E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50655014E-05 Y= -0.98411212E-11 Z= -0.21093521E-08   Total=     0.00000507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461095E+01         XY=  0.47861959E-04         XZ=  0.27336125E-04
                YY=  0.12460138E+01         YZ= -0.20013346E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3296963E-05 Y= -0.3547022E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161967E+02         XY= -0.16486690E-04         XZ=  0.29767453E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22273663E-04 Y= -0.12553059E-10 Z= -0.20849633E-08   Total=     0.00002227
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464347E+01         XY=  0.21045550E-03         XZ=  0.19451961E-03
                YY=  0.12460138E+01         YZ= -0.19805707E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8858598E-06 Y= -0.3565805E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161943E+02         XY= -0.44311792E-05         XZ=  0.29778996E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31216804E-04 Y= -0.12553335E-10 Z= -0.20638494E-08   Total=     0.00003122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466037E+01         XY=  0.29495594E-03         XZ=  0.28978799E-03
                YY=  0.12460138E+01         YZ= -0.19606442E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1902162E-05 Y= -0.3581698E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161915E+02         XY=  0.95089253E-05         XZ=  0.29792925E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28293071E-04 Y= -0.10230349E-10 Z= -0.20725844E-08   Total=     0.00002829
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465484E+01         XY=  0.26733068E-03         XZ=  0.27509656E-03
                YY=  0.12460138E+01         YZ= -0.19669898E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3998121E-05 Y= -0.3593256E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161894E+02         XY=  0.19988719E-04         XZ=  0.29803907E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14387072E-04 Y= -0.69986180E-11 Z= -0.21366248E-08   Total=     0.00001439
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462856E+01         XY=  0.13593806E-03         XZ=  0.15389179E-03
                YY=  0.12460137E+01         YZ= -0.20248409E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4577743E-05 Y= -0.3603370E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161889E+02         XY=  0.22886826E-04         XZ=  0.29807639E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53796120E-05 Y= -0.46157389E-11 Z= -0.22558837E-08   Total=     0.00000538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459121E+01         XY= -0.50830011E-04         XZ= -0.29384282E-04
                YY=  0.12460137E+01         YZ= -0.21355791E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3383028E-05 Y= -0.3617818E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161901E+02         XY=  0.16913248E-04         XZ=  0.29802518E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23530261E-04 Y= -0.43583192E-11 Z= -0.23912605E-08   Total=     0.00002353
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455691E+01         XY= -0.22232879E-03         XZ= -0.20554741E-03
                YY=  0.12460137E+01         YZ= -0.22633202E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8327077E-06 Y= -0.3627932E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161926E+02         XY=  0.41616452E-05         XZ=  0.29790310E-01
                YY= -0.10161934E+02         YZ=  0.29784838E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33057563E-04 Y= -0.64436741E-11 Z= -0.24773483E-08   Total=     0.00003306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453890E+01         XY= -0.31234876E-03         XZ= -0.30675512E-03
                YY=  0.12460137E+01         YZ= -0.23464400E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2125091E-05 Y= -0.3632266E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161956E+02         XY= -0.10627351E-04         XZ=  0.29775543E-01
                YY= -0.10161934E+02         YZ=  0.29784837E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30125415E-04 Y= -0.99644411E-11 Z= -0.24556777E-08   Total=     0.00003013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454445E+01         XY= -0.28464401E-03         XZ= -0.29260142E-03
                YY=  0.12460137E+01         YZ= -0.23289324E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4366580E-05 Y= -0.3642380E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161978E+02         XY= -0.21834802E-04         XZ=  0.29763817E-01
                YY= -0.10161934E+02         YZ=  0.29784836E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15607071E-04 Y= -0.13352194E-10 Z= -0.23066043E-08   Total=     0.00001561
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457188E+01         XY= -0.14746558E-03         XZ= -0.16619237E-03
                YY=  0.12460137E+01         YZ= -0.21909275E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5020580E-05 Y= -0.3653938E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161985E+02         XY= -0.25104807E-04         XZ=  0.29759677E-01
                YY= -0.10161934E+02         YZ=  0.29784835E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51556873E-05 Y= -0.15135642E-10 Z= -0.20612250E-08   Total=     0.00000516
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461112E+01         XY=  0.48714042E-04         XZ=  0.26181451E-04
                YY=  0.12460137E+01         YZ= -0.19605828E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3808186E-05 Y= -0.3658995E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161972E+02         XY= -0.19042844E-04         XZ=  0.29764843E-01
                YY= -0.10161934E+02         YZ=  0.29784834E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24315748E-04 Y= -0.14629430E-10 Z= -0.17903327E-08   Total=     0.00002432
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464732E+01         XY=  0.22975038E-03         XZ=  0.21197707E-03
                YY=  0.12460137E+01         YZ= -0.17042231E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1161549E-05 Y= -0.3672721E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161946E+02         XY= -0.58096663E-05         XZ=  0.29777500E-01
                YY= -0.10161934E+02         YZ=  0.29784833E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34486504E-04 Y= -0.12228715E-10 Z= -0.15784341E-08   Total=     0.00003449
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466654E+01         XY=  0.32585012E-03         XZ=  0.31975941E-03
                YY=  0.12460137E+01         YZ= -0.15020301E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1928302E-05 Y= -0.3694393E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161915E+02         XY=  0.96395837E-05         XZ=  0.29792920E-01
                YY= -0.10161934E+02         YZ=  0.29784832E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31590644E-04 Y= -0.91773929E-11 Z= -0.14919688E-08   Total=     0.00003159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466107E+01         XY=  0.29848824E-03         XZ=  0.30668140E-03
                YY=  0.12460137E+01         YZ= -0.14178201E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4281507E-05 Y= -0.3709564E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161892E+02         XY=  0.21405609E-04         XZ=  0.29805229E-01
                YY= -0.10161934E+02         YZ=  0.29784832E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16493527E-04 Y= -0.69376006E-11 Z= -0.15509451E-08   Total=     0.00001649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463254E+01         XY=  0.15584118E-03         XZ=  0.17551527E-03
                YY=  0.12460137E+01         YZ= -0.14717157E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4979235E-05 Y= -0.3718233E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161885E+02         XY=  0.24894245E-04         XZ=  0.29809638E-01
                YY= -0.10161934E+02         YZ=  0.29784831E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52322865E-05 Y= -0.64775403E-11 Z= -0.17174516E-08   Total=     0.00000523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459149E+01         XY= -0.49438004E-04         XZ= -0.25528349E-04
                YY=  0.12460137E+01         YZ= -0.16286947E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3721864E-05 Y= -0.3729069E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161897E+02         XY=  0.18607386E-04         XZ=  0.29804308E-01
                YY= -0.10161934E+02         YZ=  0.29784830E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25358062E-04 Y= -0.78215566E-11 Z= -0.19129609E-08   Total=     0.00002536
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455346E+01         XY= -0.23959904E-03         XZ= -0.22046247E-03
                YY=  0.12460137E+01         YZ= -0.18145712E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9559621E-06 Y= -0.3739905E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161925E+02         XY=  0.47778736E-05         XZ=  0.29791109E-01
                YY= -0.10161934E+02         YZ=  0.29784829E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36112512E-04 Y= -0.10074553E-10 Z= -0.20600667E-08   Total=     0.00003611
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453313E+01         XY= -0.34121389E-03         XZ= -0.33421521E-03
                YY=  0.12460138E+01         YZ= -0.19554535E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2283315E-05 Y= -0.3757243E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161957E+02         XY= -0.11418515E-04         XZ=  0.29774970E-01
                YY= -0.10161934E+02         YZ=  0.29784828E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33181153E-04 Y= -0.11900302E-10 Z= -0.21234045E-08   Total=     0.00003318
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453867E+01         XY= -0.31351657E-03         XZ= -0.32152899E-03
                YY=  0.12460138E+01         YZ= -0.20168121E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4759344E-05 Y= -0.3778192E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161982E+02         XY= -0.23798666E-04         XZ=  0.29762043E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17434066E-04 Y= -0.12206584E-10 Z= -0.21216437E-08   Total=     0.00001743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456843E+01         XY= -0.16472816E-03         XZ= -0.18494486E-03
                YY=  0.12460138E+01         YZ= -0.20153840E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5506078E-05 Y= -0.3800587E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161989E+02         XY= -0.27532342E-04         XZ=  0.29757357E-01
                YY= -0.10161934E+02         YZ=  0.29784826E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53089534E-05 Y= -0.10693093E-10 Z= -0.21046056E-08   Total=     0.00000531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461141E+01         XY=  0.50162239E-04         XZ=  0.25268261E-04
                YY=  0.12460138E+01         YZ= -0.19980042E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4204896E-05 Y= -0.3815035E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161976E+02         XY= -0.21026436E-04         XZ=  0.29762864E-01
                YY= -0.10161934E+02         YZ=  0.29784825E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26423783E-04 Y= -0.79948772E-11 Z= -0.21165635E-08   Total=     0.00002642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465131E+01         XY=  0.24966849E-03         XZ=  0.22955933E-03
                YY=  0.12460138E+01         YZ= -0.20070432E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1319425E-05 Y= -0.3803477E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161948E+02         XY= -0.65990795E-05         XZ=  0.29776627E-01
                YY= -0.10161934E+02         YZ=  0.29784824E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37748937E-04 Y= -0.53542633E-11 Z= -0.21726053E-08   Total=     0.00003775
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467271E+01         XY=  0.35667571E-03         XZ=  0.34916624E-03
                YY=  0.12460138E+01         YZ= -0.20577969E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2068220E-05 Y= -0.3792641E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.10339144E-04         XZ=  0.29793499E-01
                YY= -0.10161934E+02         YZ=  0.29784823E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34737924E-04 Y= -0.39851088E-11 Z= -0.22574823E-08   Total=     0.00003474
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466702E+01         XY=  0.32822578E-03         XZ=  0.33645843E-03
                YY=  0.12460138E+01         YZ= -0.21368637E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4662478E-05 Y= -0.3798420E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161888E+02         XY=  0.23310429E-04         XZ=  0.29807039E-01
                YY= -0.10161934E+02         YZ=  0.29784822E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18279971E-04 Y= -0.44499044E-11 Z= -0.23379119E-08   Total=     0.00001828
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463592E+01         XY=  0.17272066E-03         XZ=  0.19386735E-03
                YY=  0.12460138E+01         YZ= -0.22132529E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5449219E-05 Y= -0.3795530E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161880E+02         XY=  0.27244135E-04         XZ=  0.29811972E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55387029E-05 Y= -0.63643355E-11 Z= -0.23773614E-08   Total=     0.00000554
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459091E+01         XY= -0.52333218E-04         XZ= -0.26107987E-04
                YY=  0.12460138E+01         YZ= -0.22521125E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4091536E-05 Y= -0.3801309E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161893E+02         XY=  0.20455715E-04         XZ=  0.29806240E-01
                YY= -0.10161934E+02         YZ=  0.29784819E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27680309E-04 Y= -0.85769929E-11 Z= -0.23504903E-08   Total=     0.00002768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454907E+01         XY= -0.26154110E-03         XZ= -0.24017765E-03
                YY=  0.12460138E+01         YZ= -0.22285333E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1072220E-05 Y= -0.3812868E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161924E+02         XY=  0.53591354E-05         XZ=  0.29791853E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39580647E-04 Y= -0.97392991E-11 Z= -0.22558892E-08   Total=     0.00003958
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12452658E+01         XY= -0.37398300E-03         XZ= -0.36575632E-03
                YY=  0.12460138E+01         YZ= -0.21400613E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2476690E-05 Y= -0.3822982E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161959E+02         XY= -0.12385423E-04         XZ=  0.29774194E-01
                YY= -0.10161934E+02         YZ=  0.29784817E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36457075E-04 Y= -0.89895967E-11 Z= -0.21194196E-08   Total=     0.00003646
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453248E+01         XY= -0.34446952E-03         XZ= -0.35277895E-03
                YY=  0.12460138E+01         YZ= -0.20104259E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5197590E-05 Y= -0.3835263E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161986E+02         XY= -0.25989926E-04         XZ=  0.29760005E-01
                YY= -0.10161934E+02         YZ=  0.29784816E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19222139E-04 Y= -0.64098190E-11 Z= -0.19811957E-08   Total=     0.00001922
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456505E+01         XY= -0.18162295E-03         XZ= -0.20358534E-03
                YY=  0.12460138E+01         YZ= -0.18776127E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6025693E-05 Y= -0.3849711E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161995E+02         XY= -0.30130441E-04         XZ=  0.29754823E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57612062E-05 Y= -0.30187232E-11 Z= -0.18730864E-08   Total=     0.00000576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461227E+01         XY=  0.54435481E-04         XZ=  0.27010228E-04
                YY=  0.12460138E+01         YZ= -0.17725951E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4604239E-05 Y= -0.3854768E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161980E+02         XY= -0.23023172E-04         XZ=  0.29760825E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29028322E-04 Y= -0.29557156E-12 Z= -0.18054214E-08   Total=     0.00002903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465623E+01         XY=  0.27427789E-03         XZ=  0.25185230E-03
                YY=  0.12460138E+01         YZ= -0.17063691E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1434837E-05 Y= -0.3849711E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161949E+02         XY= -0.71761637E-05         XZ=  0.29775927E-01
                YY= -0.10161934E+02         YZ=  0.29784814E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41599493E-04 Y=  0.54346912E-12 Z= -0.17734709E-08   Total=     0.00004160
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467999E+01         XY=  0.39305825E-03         XZ=  0.38439525E-03
                YY=  0.12460138E+01         YZ= -0.16754722E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2299790E-05 Y= -0.3854768E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161911E+02         XY=  0.11496973E-04         XZ=  0.29794511E-01
                YY= -0.10161934E+02         YZ=  0.29784813E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38445993E-04 Y= -0.83054598E-12 Z= -0.17731014E-08   Total=     0.00003845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467403E+01         XY=  0.36326198E-03         XZ=  0.37202084E-03
                YY=  0.12460138E+01         YZ= -0.16762597E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5178438E-05 Y= -0.3864159E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161883E+02         XY=  0.25890212E-04         XZ=  0.29809522E-01
                YY= -0.10161934E+02         YZ=  0.29784812E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20498011E-04 Y= -0.36480316E-11 Z= -0.18056862E-08   Total=     0.00002050
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464011E+01         XY=  0.19367810E-03         XZ=  0.21689890E-03
                YY=  0.12460138E+01         YZ= -0.17093739E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6083780E-05 Y= -0.3867049E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161873E+02         XY=  0.30416919E-04         XZ=  0.29815152E-01
                YY= -0.10161934E+02         YZ=  0.29784811E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56058672E-05 Y= -0.63641179E-11 Z= -0.18673827E-08   Total=     0.00000561
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459078E+01         XY= -0.52967829E-04         XZ= -0.23867735E-04
                YY=  0.12460138E+01         YZ= -0.17698897E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4637463E-05 Y= -0.3879329E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161888E+02         XY=  0.23185331E-04         XZ=  0.29809096E-01
                YY= -0.10161934E+02         YZ=  0.29784811E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29971335E-04 Y= -0.73771493E-11 Z= -0.19383340E-08   Total=     0.00002997
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454474E+01         XY= -0.28318814E-03         XZ= -0.25923458E-03
                YY=  0.12460138E+01         YZ= -0.18377128E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1358669E-05 Y= -0.3884386E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161921E+02         XY=  0.67913602E-05         XZ=  0.29793502E-01
                YY= -0.10161934E+02         YZ=  0.29784810E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43197792E-04 Y= -0.58083214E-11 Z= -0.19875978E-08   Total=     0.00004320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451975E+01         XY= -0.40816004E-03         XZ= -0.39863592E-03
                YY=  0.12460138E+01         YZ= -0.18828836E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2519766E-05 Y= -0.3890888E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161960E+02         XY= -0.12600815E-04         XZ=  0.29774220E-01
                YY= -0.10161934E+02         YZ=  0.29784809E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40004365E-04 Y= -0.19708880E-11 Z= -0.19898675E-08   Total=     0.00004000
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12452578E+01         XY= -0.37798649E-03         XZ= -0.38682729E-03
                YY=  0.12460138E+01         YZ= -0.18817659E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5513000E-05 Y= -0.3896667E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161989E+02         XY= -0.27566990E-04         XZ=  0.29758617E-01
                YY= -0.10161934E+02         YZ=  0.29784808E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21334103E-04 Y=  0.27122287E-11 Z= -0.19364021E-08   Total=     0.00002133
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456106E+01         XY= -0.20157804E-03         XZ= -0.22574752E-03
                YY=  0.12460138E+01         YZ= -0.18272984E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6450801E-05 Y= -0.3898835E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161999E+02         XY= -0.32255990E-04         XZ=  0.29752776E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59007522E-05 Y=  0.63292399E-11 Z= -0.18316710E-08   Total=     0.00000590
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461253E+01         XY=  0.55754088E-04         XZ=  0.25241115E-04
                YY=  0.12460138E+01         YZ= -0.17253002E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4932913E-05 Y= -0.3902447E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161984E+02         XY= -0.24666547E-04         XZ=  0.29759131E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31374828E-04 Y=  0.73609313E-11 Z= -0.16852013E-08   Total=     0.00003137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466067E+01         XY=  0.29644924E-03         XZ=  0.27119531E-03
                YY=  0.12460138E+01         YZ= -0.15860345E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1496194E-05 Y= -0.3904614E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161949E+02         XY= -0.74829488E-05         XZ=  0.29775469E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45262729E-04 Y=  0.54128834E-11 Z= -0.15103981E-08   Total=     0.00004526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468691E+01         XY=  0.42767086E-03         XZ=  0.41748968E-03
                YY=  0.12460138E+01         YZ= -0.14224871E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2575726E-05 Y= -0.3903891E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161909E+02         XY=  0.12876651E-04         XZ=  0.29795706E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42027192E-04 Y=  0.14485116E-11 Z= -0.13273771E-08   Total=     0.00004203
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468080E+01         XY=  0.39709943E-03         XZ=  0.40620820E-03
                YY=  0.12460138E+01         YZ= -0.12528477E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5733246E-05 Y= -0.3902447E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161877E+02         XY=  0.28664250E-04         XZ=  0.29812156E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22622427E-04 Y= -0.26088903E-11 Z= -0.11580226E-08   Total=     0.00002262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464413E+01         XY=  0.21375094E-03         XZ=  0.23903861E-03
                YY=  0.12460138E+01         YZ= -0.10961834E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6752076E-05 Y= -0.3894500E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161867E+02         XY=  0.33758399E-04         XZ=  0.29818458E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57624061E-05 Y= -0.47448120E-11 Z= -0.10125927E-08   Total=     0.00000576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459049E+01         XY= -0.54446892E-04         XZ= -0.22366645E-04
                YY=  0.12460138E+01         YZ= -0.96050453E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5209464E-05 Y= -0.3897390E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161882E+02         XY=  0.26045334E-04         XZ=  0.29812046E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32361955E-04 Y= -0.37976763E-11 Z= -0.88243503E-09   Total=     0.00003236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454022E+01         XY= -0.30577620E-03         XZ= -0.27907711E-03
                YY=  0.12460138E+01         YZ= -0.83667369E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1660425E-05 Y= -0.3900279E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161918E+02         XY=  0.83001404E-05         XZ=  0.29795197E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46913278E-04 Y= -0.36312182E-13 Z= -0.74964338E-09   Total=     0.00004691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451272E+01         XY= -0.44326624E-03         XZ= -0.43228160E-03
                YY=  0.12460138E+01         YZ= -0.70800593E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2558882E-05 Y= -0.3887998E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161960E+02         XY= -0.12796397E-04         XZ=  0.29774243E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43610107E-04 Y=  0.49055029E-11 Z= -0.60387442E-09   Total=     0.00004361
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451897E+01         XY= -0.41205575E-03         XZ= -0.42126885E-03
                YY=  0.12460138E+01         YZ= -0.56610217E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5831330E-05 Y= -0.3875717E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161993E+02         XY= -0.29158632E-04         XZ=  0.29757200E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23410816E-04 Y=  0.87398221E-11 Z= -0.44697836E-09   Total=     0.00002341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455714E+01         XY= -0.22120007E-03         XZ= -0.24740957E-03
                YY=  0.12460138E+01         YZ= -0.41462663E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6875538E-05 Y= -0.3874995E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162003E+02         XY= -0.34379666E-04         XZ=  0.29750724E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62156774E-05 Y=  0.95593865E-11 Z= -0.28170982E-09   Total=     0.00000622
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461312E+01         XY=  0.58729730E-04         XZ=  0.25322616E-04
                YY=  0.12460138E+01         YZ= -0.25777336E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5243956E-05 Y= -0.3877162E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161987E+02         XY= -0.26221756E-04         XZ=  0.29757527E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34049960E-04 Y=  0.67314145E-11 Z= -0.10222602E-09   Total=     0.00003405
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466572E+01         XY=  0.32172556E-03         XZ=  0.29387001E-03
                YY=  0.12460138E+01         YZ= -0.90543295E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1509116E-05 Y= -0.3878607E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161949E+02         XY= -0.75475538E-05         XZ=  0.29775266E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49368980E-04 Y=  0.12250684E-11 Z=  0.98352900E-10   Total=     0.00004937
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469467E+01         XY=  0.46646927E-03         XZ=  0.45501430E-03
                YY=  0.12460138E+01         YZ=  0.94382636E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2938777E-05 Y= -0.3889443E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161905E+02         XY=  0.14691910E-04         XZ=  0.29797360E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46073174E-04 Y= -0.47855396E-11 Z=  0.31179625E-09   Total=     0.00004607
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468844E+01         XY=  0.43532836E-03         XZ=  0.44501227E-03
                YY=  0.12460138E+01         YZ=  0.29105248E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6411639E-05 Y= -0.3895945E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161870E+02         XY=  0.32056219E-04         XZ=  0.29815440E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25107121E-04 Y= -0.88875427E-11 Z=  0.51269772E-09   Total=     0.00002511
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464882E+01         XY=  0.23722783E-03         XZ=  0.26474169E-03
                YY=  0.12460138E+01         YZ=  0.47748071E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7566553E-05 Y= -0.3902447E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161859E+02         XY=  0.37830786E-04         XZ=  0.29822533E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57850982E-05 Y= -0.95190389E-11 Z=  0.67693082E-09   Total=     0.00000579
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459045E+01         XY= -0.54661346E-04         XZ= -0.19549577E-04
                YY=  0.12460138E+01         YZ=  0.63217260E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5927051E-05 Y= -0.3905336E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161875E+02         XY=  0.29633272E-04         XZ=  0.29815762E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34918724E-04 Y= -0.66887320E-11 Z=  0.80140994E-09   Total=     0.00003492
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453539E+01         XY= -0.32993419E-03         XZ= -0.30057079E-03
                YY=  0.12460138E+01         YZ=  0.75219602E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2080663E-05 Y= -0.3905336E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161914E+02         XY=  0.10401333E-04         XZ=  0.29797520E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51086768E-04 Y= -0.19811520E-11 Z=  0.90352570E-09   Total=     0.00005109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12450484E+01         XY= -0.48270002E-03         XZ= -0.47046936E-03
                YY=  0.12460138E+01         YZ=  0.85264797E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2528515E-05 Y= -0.3914005E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161960E+02         XY= -0.12644559E-04         XZ=  0.29774638E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47868396E-04 Y=  0.21557679E-11 Z=  0.10033799E-08   Total=     0.00004787
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451092E+01         XY= -0.45229077E-03         XZ= -0.46220106E-03
                YY=  0.12460138E+01         YZ=  0.95046853E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6139377E-05 Y= -0.3929898E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161996E+02         XY= -0.30698867E-04         XZ=  0.29755846E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26172756E-04 Y=  0.35322492E-11 Z=  0.11109174E-08   Total=     0.00002617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455192E+01         XY= -0.24729667E-03         XZ= -0.27593853E-03
                YY=  0.12460138E+01         YZ=  0.10532221E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7344134E-05 Y= -0.3945069E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162008E+02         XY= -0.36722651E-04         XZ=  0.29748449E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59878634E-05 Y=  0.12224385E-11 Z=  0.12295908E-08   Total=     0.00000599
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461269E+01         XY=  0.56577122E-04         XZ=  0.19872972E-04
                YY=  0.12460138E+01         YZ=  0.11634040E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5634254E-05 Y= -0.3951570E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161991E+02         XY= -0.28173250E-04         XZ=  0.29755507E-01
                YY= -0.10161934E+02         YZ=  0.29784808E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36452999E-04 Y= -0.40013938E-11 Z=  0.13643892E-08   Total=     0.00003645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467026E+01         XY=  0.34443089E-03         XZ=  0.31362484E-03
                YY=  0.12460138E+01         YZ=  0.12863842E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1610677E-05 Y= -0.3960239E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161950E+02         XY= -0.80553694E-05         XZ=  0.29774587E-01
                YY= -0.10161934E+02         YZ=  0.29784809E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53508534E-04 Y= -0.10015923E-10 Z=  0.15189094E-08   Total=     0.00005351
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12470250E+01         XY=  0.50558228E-03         XZ=  0.49262277E-03
                YY=  0.12460138E+01         YZ=  0.14273478E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3227953E-05 Y= -0.3971075E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161902E+02         XY=  0.16137776E-04         XZ=  0.29798604E-01
                YY= -0.10161934E+02         YZ=  0.29784809E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50386358E-04 Y= -0.14307179E-10 Z=  0.16863651E-08   Total=     0.00005039
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469660E+01         XY=  0.47608195E-03         XZ=  0.48628168E-03
                YY=  0.12460138E+01         YZ=  0.15819885E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7044869E-05 Y= -0.3984801E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161864E+02         XY=  0.35222349E-04         XZ=  0.29818459E-01
                YY= -0.10161934E+02         YZ=  0.29784810E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27942833E-04 Y= -0.15115193E-10 Z=  0.18523053E-08   Total=     0.00002794
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465418E+01         XY=  0.26402137E-03         XZ=  0.29390230E-03
                YY=  0.12460138E+01         YZ=  0.17381207E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8363941E-05 Y= -0.4000694E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161851E+02         XY=  0.41817704E-04         XZ=  0.29826493E-01
                YY= -0.10161934E+02         YZ=  0.29784811E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55423057E-05 Y= -0.12223998E-10 Z=  0.20106181E-08   Total=     0.00000554
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459091E+01         XY= -0.52367315E-04         XZ= -0.13891237E-04
                YY=  0.12460138E+01         YZ=  0.18901402E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6641806E-05 Y= -0.4008640E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161868E+02         XY=  0.33207026E-04         XZ=  0.29819452E-01
                YY= -0.10161934E+02         YZ=  0.29784812E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37416346E-04 Y= -0.70440782E-11 Z=  0.21716761E-08   Total=     0.00003742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453067E+01         XY= -0.35353330E-03         XZ= -0.32103259E-03
                YY=  0.12460138E+01         YZ=  0.20466569E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2492002E-05 Y= -0.4021644E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161909E+02         XY=  0.12458007E-04         XZ=  0.29799806E-01
                YY= -0.10161934E+02         YZ=  0.29784813E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55431068E-04 Y= -0.19512369E-11 Z=  0.23463817E-08   Total=     0.00005543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12449663E+01         XY= -0.52374771E-03         XZ= -0.50974657E-03
                YY=  0.12460138E+01         YZ=  0.22159792E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2530705E-05 Y= -0.4025978E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161960E+02         XY= -0.12655532E-04         XZ=  0.29774900E-01
                YY= -0.10161934E+02         YZ=  0.29784814E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52446162E-04 Y=  0.80617038E-12 Z=  0.25208209E-08   Total=     0.00005245
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12450227E+01         XY= -0.49554441E-03         XZ= -0.50568208E-03
                YY=  0.12460138E+01         YZ=  0.23830812E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6510622E-05 Y= -0.4030313E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161999E+02         XY= -0.32555116E-04         XZ=  0.29754220E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29254073E-04 Y=  0.12402152E-12 Z=  0.26544507E-08   Total=     0.00002925
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454610E+01         XY= -0.27641093E-03         XZ= -0.30716334E-03
                YY=  0.12460138E+01         YZ=  0.25087415E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7899822E-05 Y= -0.4048373E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162013E+02         XY= -0.39501118E-04         XZ=  0.29745791E-01
                YY= -0.10161934E+02         YZ=  0.29784817E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55888843E-05 Y= -0.34858219E-11 Z=  0.27101202E-08   Total=     0.00000559
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461194E+01         XY=  0.52807271E-04         XZ=  0.12929795E-04
                YY=  0.12460138E+01         YZ=  0.25582968E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6118183E-05 Y= -0.4070045E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161995E+02         XY= -0.30592923E-04         XZ=  0.29753073E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38910584E-04 Y= -0.81725319E-11 Z=  0.26863457E-08   Total=     0.00003891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467491E+01         XY=  0.36765166E-03         XZ=  0.33383212E-03
                YY=  0.12460138E+01         YZ=  0.25319035E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1792632E-05 Y= -0.4091717E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161952E+02         XY= -0.89651742E-05         XZ=  0.29773553E-01
                YY= -0.10161934E+02         YZ=  0.29784819E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57894157E-04 Y= -0.11632569E-10 Z=  0.26182797E-08   Total=     0.00005789
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12471078E+01         XY=  0.54702040E-03         XZ=  0.53237577E-03
                YY=  0.12460138E+01         YZ=  0.24647046E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3462359E-05 Y= -0.4100386E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161900E+02         XY=  0.17309778E-04         XZ=  0.29799612E-01
                YY= -0.10161934E+02         YZ=  0.29784820E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54999258E-04 Y= -0.12183735E-10 Z=  0.25494976E-08   Total=     0.00005500
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12470531E+01         XY=  0.51966756E-03         XZ=  0.53018587E-03
                YY=  0.12460138E+01         YZ=  0.23992731E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7646860E-05 Y= -0.4109055E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161858E+02         XY=  0.38232277E-04         XZ=  0.29821349E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30945833E-04 Y= -0.95263186E-11 Z=  0.25060013E-08   Total=     0.00003095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465986E+01         XY=  0.29239565E-03         XZ=  0.32452167E-03
                YY=  0.12460138E+01         YZ=  0.23604185E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9135999E-05 Y= -0.4122781E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161843E+02         XY=  0.45677969E-04         XZ=  0.29830350E-01
                YY= -0.10161934E+02         YZ=  0.29784822E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54177438E-05 Y= -0.48425718E-11 Z=  0.24939353E-08   Total=     0.00000542
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459114E+01         XY= -0.51190306E-04         XZ= -0.93524298E-05
                YY=  0.12460138E+01         YZ=  0.23529478E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7309833E-05 Y= -0.4130727E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161861E+02         XY=  0.36547138E-04         XZ=  0.29822933E-01
                YY= -0.10161934E+02         YZ=  0.29784824E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40365352E-04 Y= -0.20992483E-12 Z=  0.25099024E-08   Total=     0.00004037
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12452510E+01         XY= -0.38139730E-03         XZ= -0.34566542E-03
                YY=  0.12460138E+01         YZ=  0.23719099E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2808871E-05 Y= -0.4124948E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161906E+02         XY=  0.14042330E-04         XZ=  0.29801650E-01
                YY= -0.10161934E+02         YZ=  0.29784825E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60470733E-04 Y=  0.23856581E-11 Z=  0.25431297E-08   Total=     0.00006047
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12448711E+01         XY= -0.57136560E-03         XZ= -0.55548499E-03
                YY=  0.12460138E+01         YZ=  0.24054683E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2689334E-05 Y= -0.4120614E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161961E+02         XY= -0.13448693E-04         XZ=  0.29774414E-01
                YY= -0.10161934E+02         YZ=  0.29784826E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57762414E-04 Y=  0.19666155E-11 Z=  0.25716278E-08   Total=     0.00005776
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12449222E+01         XY= -0.54577570E-03         XZ= -0.55611869E-03
                YY=  0.12460138E+01         YZ=  0.24320367E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7095378E-05 Y= -0.4130727E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162005E+02         XY= -0.35478916E-04         XZ=  0.29751561E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32877980E-04 Y= -0.10167020E-11 Z=  0.25721176E-08   Total=     0.00003288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453925E+01         XY= -0.31065190E-03         XZ= -0.34365255E-03
                YY=  0.12460138E+01         YZ=  0.24300049E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8702292E-05 Y= -0.4136507E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162021E+02         XY= -0.43513487E-04         XZ=  0.29741925E-01
                YY= -0.10161934E+02         YZ=  0.29784828E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50268558E-05 Y= -0.49458371E-11 Z=  0.25440805E-08   Total=     0.00000503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461088E+01         XY=  0.47496857E-04         XZ=  0.41455984E-05
                YY=  0.12460138E+01         YZ=  0.24002405E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6847198E-05 Y= -0.4146620E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162003E+02         XY= -0.34238018E-04         XZ=  0.29749423E-01
                YY= -0.10161934E+02         YZ=  0.29784829E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41638608E-04 Y= -0.78343250E-11 Z=  0.25191948E-08   Total=     0.00004164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468007E+01         XY=  0.39342775E-03         XZ=  0.35621028E-03
                YY=  0.12460138E+01         YZ=  0.23743339E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2184155E-05 Y= -0.4157456E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161956E+02         XY= -0.10922806E-04         XZ=  0.29771466E-01
                YY= -0.10161934E+02         YZ=  0.29784830E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62883973E-04 Y= -0.82751449E-11 Z=  0.25346370E-08   Total=     0.00006288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12472021E+01         XY=  0.59416736E-03         XZ=  0.57750522E-03
                YY=  0.12460138E+01         YZ=  0.23885812E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3543360E-05 Y= -0.4166848E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161899E+02         XY=  0.17714767E-04         XZ=  0.29799836E-01
                YY= -0.10161934E+02         YZ=  0.29784831E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60333617E-04 Y= -0.60852912E-11 Z=  0.25920913E-08   Total=     0.00006033
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12471539E+01         XY=  0.57007001E-03         XZ=  0.58076510E-03
                YY=  0.12460138E+01         YZ=  0.24447196E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8152097E-05 Y= -0.4172627E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161853E+02         XY=  0.40758449E-04         XZ=  0.29823739E-01
                YY= -0.10161934E+02         YZ=  0.29784833E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34537748E-04 Y= -0.23485831E-11 Z=  0.26469561E-08   Total=     0.00003454
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466665E+01         XY=  0.32633441E-03         XZ=  0.36083345E-03
                YY=  0.12460138E+01         YZ=  0.24996936E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9849072E-05 Y= -0.4170460E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161836E+02         XY=  0.49243326E-04         XZ=  0.29833906E-01
                YY= -0.10161934E+02         YZ=  0.29784834E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50231040E-05 Y=  0.11494533E-11 Z=  0.26430831E-08   Total=     0.00000502
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459189E+01         XY= -0.47461443E-04         XZ= -0.18865110E-05
                YY=  0.12460138E+01         YZ=  0.24989566E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7926662E-05 Y= -0.4158179E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161855E+02         XY=  0.39631277E-04         XZ=  0.29826171E-01
                YY= -0.10161934E+02         YZ=  0.29784835E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43415863E-04 Y=  0.28117136E-11 Z=  0.25573670E-08   Total=     0.00004342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451934E+01         XY= -0.41022042E-03         XZ= -0.37076118E-03
                YY=  0.12460138E+01         YZ=  0.24193458E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3053551E-05 Y= -0.4143731E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161904E+02         XY=  0.15265724E-04         XZ=  0.29803166E-01
                YY= -0.10161934E+02         YZ=  0.29784836E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65887248E-04 Y=  0.20082550E-11 Z=  0.24096074E-08   Total=     0.00006589
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12447687E+01         XY= -0.62254425E-03         XZ= -0.60435520E-03
                YY=  0.12460138E+01         YZ=  0.22790480E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2957346E-05 Y= -0.4133617E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161964E+02         XY= -0.14788759E-04         XZ=  0.29773429E-01
                YY= -0.10161934E+02         YZ=  0.29784837E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63530397E-04 Y= -0.62887673E-12 Z=  0.22351724E-08   Total=     0.00006353
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12448133E+01         XY= -0.60027526E-03         XZ= -0.61063984E-03
                YY=  0.12460138E+01         YZ=  0.21120145E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7824438E-05 Y= -0.4135784E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162013E+02         XY= -0.39124223E-04         XZ=  0.29748229E-01
                YY= -0.10161934E+02         YZ=  0.29784838E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36809944E-04 Y= -0.35328620E-11 Z=  0.20589759E-08   Total=     0.00003681
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453182E+01         XY= -0.34780360E-03         XZ= -0.38320948E-03
                YY=  0.12460138E+01         YZ=  0.19430988E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9665112E-05 Y= -0.4154567E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162031E+02         XY= -0.48327592E-04         XZ=  0.29737293E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44463335E-05 Y= -0.49862832E-11 Z=  0.18955824E-08   Total=     0.00000445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460978E+01         XY=  0.42011715E-04         XZ= -0.52811151E-05
                YY=  0.12460138E+01         YZ=  0.17874971E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7725744E-05 Y= -0.4166848E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162012E+02         XY= -0.38630754E-04         XZ=  0.29745039E-01
                YY= -0.10161934E+02         YZ=  0.29784840E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44652126E-04 Y= -0.39776786E-11 Z=  0.17591431E-08   Total=     0.00004465
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468576E+01         XY=  0.42190141E-03         XZ=  0.38065588E-03
                YY=  0.12460138E+01         YZ=  0.16594233E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2691268E-05 Y= -0.4178406E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161961E+02         XY= -0.13458375E-04         XZ=  0.29768787E-01
                YY= -0.10161934E+02         YZ=  0.29784840E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68343334E-04 Y= -0.70782446E-12 Z=  0.16563214E-08   Total=     0.00006834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12473053E+01         XY=  0.64575091E-03         XZ=  0.62648997E-03
                YY=  0.12460138E+01         YZ=  0.15650020E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3552141E-05 Y= -0.4190687E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161899E+02         XY=  0.17758671E-04         XZ=  0.29799664E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66120310E-04 Y=  0.35003235E-11 Z=  0.15704580E-08   Total=     0.00006612
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12472633E+01         XY=  0.62474642E-03         XZ=  0.63527684E-03
                YY=  0.12460138E+01         YZ=  0.14873826E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8620105E-05 Y= -0.4210192E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161848E+02         XY=  0.43098492E-04         XZ=  0.29825899E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38368871E-04 Y=  0.68499649E-11 Z=  0.14680015E-08   Total=     0.00003837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467389E+01         XY=  0.36253336E-03         XZ=  0.39939862E-03
                YY=  0.12460138E+01         YZ=  0.13933599E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1053714E-04 Y= -0.4218861E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161829E+02         XY=  0.52683686E-04         XZ=  0.29837297E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47096623E-05 Y=  0.79617308E-11 Z=  0.13329958E-08   Total=     0.00000471
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459248E+01         XY= -0.44499785E-04         XZ=  0.51010587E-05
                YY=  0.12460138E+01         YZ=  0.12667065E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8502986E-05 Y= -0.4222473E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161849E+02         XY=  0.42512901E-04         XZ=  0.29829180E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46840153E-04 Y=  0.65719323E-11 Z=  0.11915113E-08   Total=     0.00004684
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451287E+01         XY= -0.44257524E-03         XZ= -0.39895906E-03
                YY=  0.12460138E+01         YZ=  0.11318367E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3221112E-05 Y= -0.4228252E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161902E+02         XY=  0.16103534E-04         XZ=  0.29804287E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71816584E-04 Y=  0.36865916E-11 Z=  0.10912677E-08   Total=     0.00007182
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12446567E+01         XY= -0.67856834E-03         XZ= -0.65770556E-03
                YY=  0.12460138E+01         YZ=  0.10346854E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3344556E-05 Y= -0.4227530E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161968E+02         XY= -0.16724803E-04         XZ=  0.29771847E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69731794E-04 Y=  0.11051215E-11 Z=  0.10535921E-08   Total=     0.00006973
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12446961E+01         XY= -0.65886996E-03         XZ= -0.66912371E-03
                YY=  0.12460138E+01         YZ=  0.99691347E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8701763E-05 Y= -0.4229697E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162021E+02         XY= -0.43510840E-04         XZ=  0.29744155E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40899726E-04 Y=  0.53274421E-12 Z=  0.10526032E-08   Total=     0.00004090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12452409E+01         XY= -0.38644640E-03         XZ= -0.42441952E-03
                YY=  0.12460138E+01         YZ=  0.99549544E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1077825E-04 Y= -0.4230420E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162042E+02         XY= -0.53893291E-04         XZ=  0.29731896E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40792556E-05 Y=  0.27092334E-11 Z=  0.10441372E-08   Total=     0.00000408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460909E+01         XY=  0.38543405E-04         XZ= -0.13077582E-04
                YY=  0.12460138E+01         YZ=  0.98932098E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8725682E-05 Y= -0.4225363E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162022E+02         XY= -0.43630433E-04         XZ=  0.29740014E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48207158E-04 Y=  0.69852710E-11 Z=  0.10067325E-08   Total=     0.00004821
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469248E+01         XY=  0.45549170E-03         XZ=  0.40977569E-03
                YY=  0.12460138E+01         YZ=  0.95756552E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3267491E-05 Y= -0.4218139E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161967E+02         XY= -0.16339475E-04         XZ=  0.29765711E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.74506330E-04 Y=  0.11573374E-10 Z=  0.94527622E-09   Total=     0.00007451
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12474218E+01         XY=  0.70398290E-03         XZ=  0.68181707E-03
                YY=  0.12460138E+01         YZ=  0.90334523E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3551095E-05 Y= -0.4215971E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161899E+02         XY=  0.17753460E-04         XZ=  0.29799382E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72547310E-04 Y=  0.14373067E-10 Z=  0.86199676E-09   Total=     0.00007255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12473848E+01         XY=  0.68547287E-03         XZ=  0.69579816E-03
                YY=  0.12460138E+01         YZ=  0.82700390E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9125678E-05 Y= -0.4203691E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161843E+02         XY=  0.45626381E-04         XZ=  0.29828189E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42576825E-04 Y=  0.13988740E-10 Z=  0.74152387E-09   Total=     0.00004258
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468184E+01         XY=  0.40229282E-03         XZ=  0.44175624E-03
                YY=  0.12460138E+01         YZ=  0.71284813E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1128386E-04 Y= -0.4187075E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161821E+02         XY=  0.56417314E-04         XZ=  0.29840936E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43845144E-05 Y=  0.10449501E-10 Z=  0.57361745E-09   Total=     0.00000438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459310E+01         XY= -0.41427558E-04         XZ=  0.12580727E-04
                YY=  0.12460138E+01         YZ=  0.55122996E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9127971E-05 Y= -0.4179851E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161843E+02         XY=  0.45637851E-04         XZ=  0.29832404E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50586819E-04 Y=  0.52679586E-11 Z=  0.37966586E-09   Total=     0.00005059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12450579E+01         XY= -0.47797612E-03         XZ= -0.42987505E-03
                YY=  0.12460138E+01         YZ=  0.36363128E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3402617E-05 Y= -0.4174072E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161900E+02         XY=  0.17011084E-04         XZ=  0.29805458E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.78254730E-04 Y=  0.77904789E-12 Z=  0.20141831E-09   Total=     0.00007825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12445350E+01         XY= -0.73940004E-03         XZ= -0.71578735E-03
                YY=  0.12460138E+01         YZ=  0.19145970E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3762472E-05 Y= -0.4173349E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161972E+02         XY= -0.18814362E-04         XZ=  0.29770090E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.76422119E-04 Y= -0.94663378E-12 Z=  0.61145012E-10   Total=     0.00007642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12445696E+01         XY= -0.72208438E-03         XZ= -0.73251057E-03
                YY=  0.12460138E+01         YZ=  0.57494923E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9646711E-05 Y= -0.4174072E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162031E+02         XY= -0.48235557E-04         XZ=  0.29739703E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45269518E-04 Y=  0.88984133E-12 Z= -0.54450296E-10   Total=     0.00004527
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451583E+01         XY= -0.42773495E-03         XZ= -0.46888535E-03
                YY=  0.12460138E+01         YZ= -0.50159055E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1197399E-04 Y= -0.4179129E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162054E+02         XY= -0.59871959E-04         XZ=  0.29726018E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37479499E-05 Y=  0.53773800E-11 Z= -0.16508050E-09   Total=     0.00000375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460846E+01         XY=  0.35413045E-04         XZ= -0.21307053E-04
                YY=  0.12460138E+01         YZ= -0.15089767E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9795208E-05 Y= -0.4174072E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162032E+02         XY= -0.48978038E-04         XZ=  0.29734544E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52107546E-04 Y=  0.10257422E-10 Z= -0.26234970E-09   Total=     0.00005211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469985E+01         XY=  0.49234505E-03         XZ=  0.44146432E-03
                YY=  0.12460138E+01         YZ= -0.23868867E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3875967E-05 Y= -0.4159624E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161973E+02         XY= -0.19381830E-04         XZ=  0.29762353E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.81216581E-04 Y=  0.12947916E-10 Z= -0.31874382E-09   Total=     0.00008122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12475486E+01         XY=  0.76738560E-03         XZ=  0.74191576E-03
                YY=  0.12460138E+01         YZ= -0.28970370E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3568062E-05 Y= -0.4145176E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161899E+02         XY=  0.17838322E-04         XZ=  0.29799061E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.79560429E-04 Y=  0.11763285E-10 Z= -0.32699542E-09   Total=     0.00007956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12475173E+01         XY=  0.75173722E-03         XZ=  0.76186894E-03
                YY=  0.12460138E+01         YZ= -0.29848839E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9697818E-05 Y= -0.4138674E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161837E+02         XY=  0.48487107E-04         XZ=  0.29830690E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47252264E-04 Y=  0.67586272E-11 Z= -0.31359601E-09   Total=     0.00004725
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469068E+01         XY=  0.44646925E-03         XZ=  0.48892270E-03
                YY=  0.12460138E+01         YZ= -0.29002281E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1213131E-04 Y= -0.4149510E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161813E+02         XY=  0.60654570E-04         XZ=  0.29844979E-01
                YY= -0.10161934E+02         YZ=  0.29784846E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38099898E-05 Y= -0.21517224E-12 Z= -0.30377570E-09   Total=     0.00000381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459418E+01         XY= -0.35999189E-04         XZ=  0.23026333E-04
                YY=  0.12460138E+01         YZ= -0.28658745E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9866785E-05 Y= -0.4161069E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161836E+02         XY=  0.49331943E-04         XZ=  0.29836123E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54317247E-04 Y= -0.62984449E-11 Z= -0.28512504E-09   Total=     0.00005432
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12449874E+01         XY= -0.51322366E-03         XZ= -0.46004027E-03
                YY=  0.12460138E+01         YZ= -0.27405475E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3690958E-05 Y= -0.4167570E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161897E+02         XY=  0.18452802E-04         XZ=  0.29807111E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.84846313E-04 Y= -0.89109936E-11 Z= -0.22267491E-09   Total=     0.00008485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12444105E+01         XY= -0.80168156E-03         XZ= -0.77494444E-03
                YY=  0.12460138E+01         YZ= -0.21721989E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4093211E-05 Y= -0.4170460E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161975E+02         XY= -0.20468044E-04         XZ=  0.29768726E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.83326069E-04 Y= -0.69512597E-11 Z= -0.11142229E-09   Total=     0.00008333
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12444392E+01         XY= -0.78731732E-03         XZ= -0.79787875E-03
                YY=  0.12460138E+01         YZ= -0.11043779E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1052615E-04 Y= -0.4169737E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162040E+02         XY= -0.52632749E-04         XZ=  0.29735530E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49802338E-04 Y= -0.13454830E-11 Z=  0.24241152E-11   Total=     0.00004980
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12450727E+01         XY= -0.47056391E-03         XZ= -0.51517423E-03
                YY=  0.12460138E+01         YZ=  0.18466538E-10         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1311809E-04 Y= -0.4168293E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162065E+02         XY= -0.65592459E-04         XZ=  0.29720332E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33759790E-05 Y=  0.53262176E-11 Z=  0.62482166E-10   Total=     0.00000338
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460776E+01         XY=  0.31898429E-04         XZ= -0.30390019E-04
                YY=  0.12460138E+01         YZ=  0.64191163E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1081365E-04 Y= -0.4160346E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162042E+02         XY= -0.54070228E-04         XZ=  0.29729241E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56099496E-04 Y=  0.99746715E-11 Z=  0.56699990E-10   Total=     0.00005610
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12470739E+01         XY=  0.53006351E-03         XZ=  0.47355203E-03
                YY=  0.12460138E+01         YZ=  0.62617337E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4421090E-05 Y= -0.4149510E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161979E+02         XY= -0.22107430E-04         XZ=  0.29759206E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.88099013E-04 Y=  0.10407013E-10 Z=  0.18073823E-10   Total=     0.00008810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12476786E+01         XY=  0.83241514E-03         XZ=  0.80334874E-03
                YY=  0.12460138E+01         YZ=  0.26468678E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3667397E-05 Y= -0.4145898E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161898E+02         XY=  0.18335006E-04         XZ=  0.29799036E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.86734954E-04 Y=  0.63459421E-11 Z= -0.22821385E-10   Total=     0.00008673
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12476529E+01         XY=  0.81952661E-03         XZ=  0.82943417E-03
                YY=  0.12460138E+01         YZ= -0.15590722E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1036882E-04 Y= -0.4148788E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161831E+02         XY=  0.51842101E-04         XZ=  0.29833572E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51981880E-04 Y= -0.41088492E-12 Z= -0.67603934E-10   Total=     0.00005198
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469961E+01         XY=  0.49115758E-03         XZ=  0.53681407E-03
                YY=  0.12460138E+01         YZ= -0.63575880E-09         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1308261E-04 Y= -0.4154567E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161803E+02         XY=  0.65411055E-04         XZ=  0.29849438E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33535736E-05 Y= -0.67786873E-11 Z= -0.12616819E-09   Total=     0.00000335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459504E+01         XY= -0.31686742E-04         XZ=  0.32706646E-04
                YY=  0.12460138E+01         YZ= -0.12424666E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1069772E-04 Y= -0.4173349E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161827E+02         XY=  0.53486635E-04         XZ=  0.29840213E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58344803E-04 Y= -0.97708429E-11 Z= -0.18259636E-09   Total=     0.00005834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12449113E+01         XY= -0.55127858E-03         XZ= -0.49266579E-03
                YY=  0.12460138E+01         YZ= -0.18006245E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4043826E-05 Y= -0.4187798E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161894E+02         XY=  0.20217145E-04         XZ=  0.29809010E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.91853541E-04 Y= -0.78583756E-11 Z= -0.20769490E-09   Total=     0.00009185
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12442780E+01         XY= -0.86789026E-03         XZ= -0.83779958E-03
                YY=  0.12460138E+01         YZ= -0.20216423E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4395659E-05 Y= -0.4192132E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161978E+02         XY= -0.21980283E-04         XZ=  0.29767434E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.90649383E-04 Y= -0.16805203E-11 Z= -0.20629816E-09   Total=     0.00009065
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12443008E+01         XY= -0.85651255E-03         XZ= -0.86713987E-03
                YY=  0.12460138E+01         YZ= -0.19566092E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1141049E-04 Y= -0.4202246E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162048E+02         XY= -0.57054441E-04         XZ=  0.29731265E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54621711E-04 Y=  0.62200329E-11 Z= -0.22936389E-09   Total=     0.00005462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12449816E+01         XY= -0.51610031E-03         XZ= -0.56421792E-03
                YY=  0.12460138E+01         YZ= -0.21083487E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1428478E-04 Y= -0.4206580E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162077E+02         XY= -0.71425907E-04         XZ=  0.29714466E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29645991E-05 Y=  0.12522717E-10 Z= -0.32336839E-09   Total=     0.00000296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460698E+01         XY=  0.28011520E-04         XZ= -0.39905124E-04
                YY=  0.12460138E+01         YZ= -0.29438092E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1184805E-04 Y= -0.4193577E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162053E+02         XY= -0.59242229E-04         XZ=  0.29723791E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60349180E-04 Y=  0.14608053E-10 Z= -0.47625067E-09   Total=     0.00006035
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12471543E+01         XY=  0.57021725E-03         XZ=  0.50812061E-03
                YY=  0.12460138E+01         YZ= -0.43709492E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4949649E-05 Y= -0.4185630E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161984E+02         XY= -0.24750218E-04         XZ=  0.29756079E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.95496180E-04 Y=  0.11723478E-10 Z= -0.63265438E-09   Total=     0.00009550
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12478184E+01         XY=  0.90230825E-03         XZ=  0.86987697E-03
                YY=  0.12460138E+01         YZ= -0.58729849E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3834610E-05 Y= -0.4180574E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161896E+02         XY=  0.19171082E-04         XZ=  0.29799302E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.94552827E-04 Y=  0.53089113E-11 Z= -0.76134411E-09   Total=     0.00009455
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12478006E+01         XY=  0.89339479E-03         XZ=  0.90350507E-03
                YY=  0.12460138E+01         YZ= -0.71427007E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1116351E-04 Y= -0.4169737E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161823E+02         XY=  0.55815567E-04         XZ=  0.29837044E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57299777E-04 Y= -0.16608355E-11 Z= -0.88819581E-09   Total=     0.00005730
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12470966E+01         XY=  0.54140442E-03         XZ=  0.59081797E-03
                YY=  0.12460138E+01         YZ= -0.83996807E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1420069E-04 Y= -0.4171905E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161792E+02         XY=  0.71001469E-04         XZ=  0.29854727E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25464781E-05 Y= -0.60156420E-11 Z= -0.10520806E-08   Total=     0.00000255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459657E+01         XY= -0.24060788E-04         XZ=  0.46259244E-04
                YY=  0.12460138E+01         YZ= -0.99846670E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1171141E-04 Y= -0.4178406E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161817E+02         XY=  0.58555069E-04         XZ=  0.29845237E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62378392E-04 Y= -0.58040801E-11 Z= -0.12450397E-08   Total=     0.00006238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12448350E+01         XY= -0.58939045E-03         XZ= -0.52492079E-03
                YY=  0.12460138E+01         YZ= -0.11806137E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4561926E-05 Y= -0.4181296E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161889E+02         XY=  0.22807653E-04         XZ=  0.29811771E-01
                YY= -0.10161934E+02         YZ=  0.29784840E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.99233536E-04 Y= -0.11481566E-11 Z= -0.14181955E-08   Total=     0.00009923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12441386E+01         XY= -0.93762104E-03         XZ= -0.90398729E-03
                YY=  0.12460138E+01         YZ= -0.13403288E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4579422E-05 Y= -0.4178406E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161980E+02         XY= -0.22899086E-04         XZ=  0.29766777E-01
                YY= -0.10161934E+02         YZ=  0.29784840E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.98603045E-04 Y=  0.58418701E-11 Z= -0.15468168E-08   Total=     0.00009860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12441505E+01         XY= -0.93166370E-03         XZ= -0.94245124E-03
                YY=  0.12460138E+01         YZ= -0.14560118E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1223752E-04 Y= -0.4169737E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162057E+02         XY= -0.61189578E-04         XZ=  0.29727323E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60133636E-04 Y=  0.12040183E-10 Z= -0.16665524E-08   Total=     0.00006013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12448775E+01         XY= -0.56818040E-03         XZ= -0.62015681E-03
                YY=  0.12460138E+01         YZ= -0.15639629E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1545115E-04 Y= -0.4156734E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162089E+02         XY= -0.77257739E-04         XZ=  0.29708621E-01
                YY= -0.10161934E+02         YZ=  0.29784838E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20129953E-05 Y=  0.14717523E-10 Z= -0.18316775E-08   Total=     0.00000201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460519E+01         XY=  0.19020188E-04         XZ= -0.55042954E-04
                YY=  0.12460138E+01         YZ= -0.17177509E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1291734E-04 Y= -0.4156012E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162063E+02         XY= -0.64588668E-04         XZ=  0.29718166E-01
                YY= -0.10161934E+02         YZ=  0.29784837E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64366808E-04 Y=  0.12750671E-10 Z= -0.20506768E-08   Total=     0.00006437
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12472302E+01         XY=  0.60817832E-03         XZ=  0.53994146E-03
                YY=  0.12460138E+01         YZ= -0.19263356E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5517418E-05 Y= -0.4159624E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161989E+02         XY= -0.27589045E-04         XZ=  0.29752736E-01
                YY= -0.10161934E+02         YZ=  0.29784836E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10300792E-03 Y=  0.70930707E-11 Z= -0.22842422E-08   Total=     0.00010301
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12479604E+01         XY=  0.97328382E-03         XZ=  0.93703355E-03
                YY=  0.12460138E+01         YZ= -0.21517802E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3986542E-05 Y= -0.4169015E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161894E+02         XY=  0.19930754E-04         XZ=  0.29799458E-01
                YY= -0.10161934E+02         YZ=  0.29784835E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10273808E-03 Y=  0.30647812E-12 Z= -0.25005785E-08   Total=     0.00010274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12479553E+01         XY=  0.97073422E-03         XZ=  0.98080741E-03
                YY=  0.12460138E+01         YZ= -0.23618976E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1198174E-04 Y= -0.4189965E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161814E+02         XY=  0.59906766E-04         XZ=  0.29840598E-01
                YY= -0.10161934E+02         YZ=  0.29784834E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63049347E-04 Y= -0.46152205E-11 Z= -0.27037940E-08   Total=     0.00006305
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12472053E+01         XY=  0.59572995E-03         XZ=  0.64893814E-03
                YY=  0.12460138E+01         YZ= -0.25580603E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1537737E-04 Y= -0.4201523E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161781E+02         XY=  0.76884890E-04         XZ=  0.29860282E-01
                YY= -0.10161934E+02         YZ=  0.29784833E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14491545E-05 Y= -0.55861437E-11 Z= -0.28934673E-08   Total=     0.00000145
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459864E+01         XY= -0.13692578E-04         XZ=  0.62867347E-04
                YY=  0.12460138E+01         YZ= -0.27381186E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1279868E-04 Y= -0.4194299E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161806E+02         XY=  0.63991452E-04         XZ=  0.29850620E-01
                YY= -0.10161934E+02         YZ=  0.29784832E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66398574E-04 Y= -0.23251399E-11 Z= -0.30209417E-08   Total=     0.00006640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12447591E+01         XY= -0.62737562E-03         XZ= -0.55652613E-03
                YY=  0.12460138E+01         YZ= -0.28558587E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5141622E-05 Y= -0.4191410E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161883E+02         XY=  0.25706152E-04         XZ=  0.29814858E-01
                YY= -0.10161934E+02         YZ=  0.29784831E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10688055E-03 Y=  0.35807637E-11 Z= -0.30222359E-08   Total=     0.00010688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12439941E+01         XY= -0.10098748E-02         XZ= -0.97207838E-03
                YY=  0.12460138E+01         YZ= -0.28521543E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4734776E-05 Y= -0.4199356E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161982E+02         XY= -0.23675835E-04         XZ=  0.29766309E-01
                YY= -0.10161934E+02         YZ=  0.29784829E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10696838E-03 Y=  0.94547641E-11 Z= -0.29033254E-08   Total=     0.00010697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12439924E+01         XY= -0.10107047E-02         XZ= -0.10210651E-02
                YY=  0.12460138E+01         YZ= -0.27348956E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1307402E-04 Y= -0.4213082E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162065E+02         XY= -0.65372028E-04         XZ=  0.29723403E-01
                YY= -0.10161934E+02         YZ=  0.29784828E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65979609E-04 Y=  0.12772555E-10 Z= -0.27676163E-08   Total=     0.00006598
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12447670E+01         XY= -0.62341684E-03         XZ= -0.67880418E-03
                YY=  0.12460138E+01         YZ= -0.26039069E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1664899E-04 Y= -0.4208025E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162101E+02         XY= -0.83246892E-04         XZ=  0.29702706E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10193443E-05 Y=  0.12291694E-10 Z= -0.27340347E-08   Total=     0.00000102
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460331E+01         XY=  0.96315243E-05         XZ= -0.70321702E-04
                YY=  0.12460138E+01         YZ= -0.25726013E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1400860E-04 Y= -0.4197911E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162074E+02         XY= -0.70044956E-04         XZ=  0.29712526E-01
                YY= -0.10161934E+02         YZ=  0.29784826E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68741428E-04 Y=  0.85576995E-11 Z= -0.28313490E-08   Total=     0.00006874
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12473128E+01         XY=  0.64951244E-03         XZ=  0.57521859E-03
                YY=  0.12460138E+01         YZ= -0.26677078E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6062967E-05 Y= -0.4203691E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161995E+02         XY= -0.30316773E-04         XZ=  0.29749599E-01
                YY= -0.10161934E+02         YZ=  0.29784825E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11121420E-03 Y=  0.35782238E-11 Z= -0.29868800E-08   Total=     0.00011121
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12481155E+01         XY=  0.10508219E-02         XZ=  0.10107411E-02
                YY=  0.12460138E+01         YZ= -0.28188690E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4227544E-05 Y= -0.4210192E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161892E+02         XY=  0.21135786E-04         XZ=  0.29800153E-01
                YY= -0.10161934E+02         YZ=  0.29784823E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11173085E-03 Y= -0.15952111E-12 Z= -0.31133253E-08   Total=     0.00011173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12481252E+01         XY=  0.10557035E-02         XZ=  0.10657368E-02
                YY=  0.12460138E+01         YZ= -0.29415080E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1295469E-04 Y= -0.4222473E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161805E+02         XY=  0.64771520E-04         XZ=  0.29845017E-01
                YY= -0.10161934E+02         YZ=  0.29784822E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69406780E-04 Y= -0.85246969E-12 Z= -0.31800468E-08   Total=     0.00006941
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12473254E+01         XY=  0.65579903E-03         XZ=  0.71288887E-03
                YY=  0.12460138E+01         YZ= -0.30051585E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1674604E-04 Y= -0.4236921E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161767E+02         XY=  0.83728267E-04         XZ=  0.29866892E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22598881E-06 Y=  0.18155402E-11 Z= -0.31939507E-08   Total=     0.00000023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460095E+01         XY= -0.21352677E-05         XZ=  0.80858570E-04
                YY=  0.12460138E+01         YZ= -0.30160778E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1406716E-04 Y= -0.4234754E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161794E+02         XY=  0.70333842E-04         XZ=  0.29857014E-01
                YY= -0.10161934E+02         YZ=  0.29784819E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70910381E-04 Y=  0.65924109E-11 Z= -0.31454541E-08   Total=     0.00007091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12446738E+01         XY= -0.67000594E-03         XZ= -0.59253759E-03
                YY=  0.12460138E+01         YZ= -0.29662619E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5839827E-05 Y= -0.4236199E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161876E+02         XY=  0.29197203E-04         XZ=  0.29818651E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11555900E-03 Y=  0.11307328E-10 Z= -0.30178474E-08   Total=     0.00011556
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12438301E+01         XY= -0.10918742E-02         XZ= -0.10497519E-02
                YY=  0.12460138E+01         YZ= -0.28417464E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4871438E-05 Y= -0.4228975E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161983E+02         XY= -0.24359120E-04         XZ=  0.29766050E-01
                YY= -0.10161934E+02         YZ=  0.29784817E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11662769E-03 Y=  0.13922549E-10 Z= -0.28501030E-08   Total=     0.00011663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12438099E+01         XY= -0.11019719E-02         XZ= -0.11119456E-02
                YY=  0.12460138E+01         YZ= -0.26810664E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1399978E-04 Y= -0.4222473E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162074E+02         XY= -0.70000829E-04         XZ=  0.29719147E-01
                YY= -0.10161934E+02         YZ=  0.29784816E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.72997302E-04 Y=  0.13477652E-10 Z= -0.27484174E-08   Total=     0.00007300
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12446343E+01         XY= -0.68972442E-03         XZ= -0.74883749E-03
                YY=  0.12460138E+01         YZ= -0.25853709E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1801917E-04 Y= -0.4210915E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162115E+02         XY= -0.90097755E-04         XZ=  0.29696021E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66941449E-06 Y=  0.10484019E-10 Z= -0.27974375E-08   Total=     0.00000067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460011E+01         XY= -0.63249512E-05         XZ= -0.92723870E-04
                YY=  0.12460138E+01         YZ= -0.26342107E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1530528E-04 Y= -0.4195744E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162087E+02         XY= -0.76528329E-04         XZ=  0.29705925E-01
                YY= -0.10161934E+02         YZ=  0.29784813E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.73091487E-04 Y=  0.66006602E-11 Z= -0.29665261E-08   Total=     0.00007309
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12473950E+01         XY=  0.69061453E-03         XZ=  0.60961456E-03
                YY=  0.12460138E+01         YZ= -0.27972438E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6789162E-05 Y= -0.4193577E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162002E+02         XY= -0.33947722E-04         XZ=  0.29745600E-01
                YY= -0.10161934E+02         YZ=  0.29784812E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12002849E-03 Y=  0.37736077E-11 Z= -0.31322797E-08   Total=     0.00012003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12482820E+01         XY=  0.11341049E-02         XZ=  0.10896719E-02
                YY=  0.12460138E+01         YZ= -0.29562369E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4358297E-05 Y= -0.4188520E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161891E+02         XY=  0.21789575E-04         XZ=  0.29800320E-01
                YY= -0.10161934E+02         YZ=  0.29784811E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12171121E-03 Y=  0.32703219E-11 Z= -0.32017079E-08   Total=     0.00012171
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12483138E+01         XY=  0.11500043E-02         XZ=  0.11598213E-02
                YY=  0.12460138E+01         YZ= -0.30222617E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1390595E-04 Y= -0.4179851E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161795E+02         XY=  0.69527830E-04         XZ=  0.29849354E-01
                YY= -0.10161934E+02         YZ=  0.29784809E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.76763008E-04 Y=  0.50816937E-11 Z= -0.31895783E-08   Total=     0.00007676
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12474644E+01         XY=  0.72530536E-03         XZ=  0.78657285E-03
                YY=  0.12460138E+01         YZ= -0.30092824E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1816777E-04 Y= -0.4178406E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161753E+02         XY=  0.90836951E-04         XZ=  0.29873818E-01
                YY= -0.10161934E+02         YZ=  0.29784808E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16670542E-05 Y=  0.79739525E-11 Z= -0.31643723E-08   Total=     0.00000167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460453E+01         XY=  0.15751455E-04         XZ=  0.10592411E-03
                YY=  0.12460138E+01         YZ= -0.29830419E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1542541E-04 Y= -0.4175517E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161780E+02         XY=  0.77125149E-04         XZ=  0.29863945E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.75263455E-04 Y=  0.10149855E-10 Z= -0.31463131E-08   Total=     0.00007526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12445915E+01         XY= -0.71113649E-03         XZ= -0.62603762E-03
                YY=  0.12460138E+01         YZ= -0.29641578E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6619111E-05 Y= -0.4178406E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161868E+02         XY=  0.33093654E-04         XZ=  0.29822982E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12454970E-03 Y=  0.10177119E-10 Z= -0.30971056E-08   Total=     0.00012455
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12436601E+01         XY= -0.11768240E-02         XZ= -0.11293848E-02
                YY=  0.12460138E+01         YZ= -0.29176475E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4969567E-05 Y= -0.4176961E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161984E+02         XY= -0.24849731E-04         XZ=  0.29766154E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12683471E-03 Y=  0.77191825E-11 Z= -0.30028850E-08   Total=     0.00012683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12436170E+01         XY= -0.11984142E-02         XZ= -0.12073265E-02
                YY=  0.12460138E+01         YZ= -0.28306906E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1493837E-04 Y= -0.4177684E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162084E+02         XY= -0.74693762E-04         XZ=  0.29715018E-01
                YY= -0.10161934E+02         YZ=  0.29784803E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80474217E-04 Y=  0.37035278E-11 Z= -0.29204380E-08   Total=     0.00008047
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12444930E+01         XY= -0.76037112E-03         XZ= -0.82304968E-03
                YY=  0.12460138E+01         YZ= -0.27561627E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1943484E-04 Y= -0.4180574E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162129E+02         XY= -0.97176106E-04         XZ=  0.29689296E-01
                YY= -0.10161934E+02         YZ=  0.29784802E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24590311E-05 Y= -0.15269693E-12 Z= -0.29073787E-08   Total=     0.00000246
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459673E+01         XY= -0.23234478E-04         XZ= -0.11646121E-03
                YY=  0.12460138E+01         YZ= -0.27470604E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1664332E-04 Y= -0.4186353E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162101E+02         XY= -0.83218517E-04         XZ=  0.29699280E-01
                YY= -0.10161934E+02         YZ=  0.29784801E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.77796050E-04 Y= -0.22205251E-11 Z= -0.29286978E-08   Total=     0.00007780
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12474839E+01         XY=  0.73506612E-03         XZ=  0.64658784E-03
                YY=  0.12460138E+01         YZ= -0.27689406E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7514904E-05 Y= -0.4189965E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162009E+02         XY= -0.37576415E-04         XZ=  0.29741730E-01
                YY= -0.10161934E+02         YZ=  0.29784799E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12953114E-03 Y= -0.17959633E-11 Z= -0.28774363E-08   Total=     0.00012953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12484616E+01         XY=  0.12238919E-02         XZ=  0.11742183E-02
                YY=  0.12460138E+01         YZ= -0.27201554E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4551983E-05 Y= -0.4181296E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161889E+02         XY=  0.22758018E-04         XZ=  0.29800894E-01
                YY= -0.10161934E+02         YZ=  0.29784798E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13242089E-03 Y=  0.52720300E-12 Z= -0.27003545E-08   Total=     0.00013242
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12485162E+01         XY=  0.12511961E-02         XZ=  0.12600812E-02
                YY=  0.12460138E+01         YZ= -0.25509000E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1497529E-04 Y= -0.4169737E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161785E+02         XY=  0.74874565E-04         XZ=  0.29854350E-01
                YY= -0.10161934E+02         YZ=  0.29784797E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84546137E-04 Y=  0.31443581E-11 Z= -0.24687817E-08   Total=     0.00008455
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12476115E+01         XY=  0.79884525E-03         XZ=  0.86394054E-03
                YY=  0.12460138E+01         YZ= -0.23299170E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1972810E-04 Y= -0.4167570E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161737E+02         XY=  0.98638632E-04         XZ=  0.29881496E-01
                YY= -0.10161934E+02         YZ=  0.29784796E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34360152E-05 Y=  0.42528476E-11 Z= -0.23007435E-08   Total=     0.00000344
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460787E+01         XY=  0.32465679E-04         XZ=  0.12985672E-03
                YY=  0.12460138E+01         YZ= -0.21702318E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1689307E-04 Y= -0.4166848E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161765E+02         XY=  0.84463437E-04         XZ=  0.29871489E-01
                YY= -0.10161934E+02         YZ=  0.29784795E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80335008E-04 Y=  0.27902231E-11 Z= -0.22344645E-08   Total=     0.00008034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12444957E+01         XY= -0.75905580E-03         XZ= -0.66604572E-03
                YY=  0.12460138E+01         YZ= -0.21088474E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7433006E-05 Y= -0.4162513E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161860E+02         XY=  0.37163140E-04         XZ=  0.29827565E-01
                YY= -0.10161934E+02         YZ=  0.29784794E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13466276E-03 Y= -0.97419735E-12 Z= -0.22154485E-08   Total=     0.00013466
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12434690E+01         XY= -0.12723787E-02         XZ= -0.12193519E-02
                YY=  0.12460138E+01         YZ= -0.20940424E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5130939E-05 Y= -0.4158179E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161986E+02         XY= -0.25656589E-04         XZ=  0.29766029E-01
                YY= -0.10161934E+02         YZ=  0.29784793E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13820808E-03 Y= -0.55038935E-11 Z= -0.22011942E-08   Total=     0.00013821
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12434020E+01         XY= -0.13058771E-02         XZ= -0.13137070E-02
                YY=  0.12460138E+01         YZ= -0.20843713E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1602829E-04 Y= -0.4156012E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162095E+02         XY= -0.80143361E-04         XZ=  0.29710211E-01
                YY= -0.10161934E+02         YZ=  0.29784792E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88765224E-04 Y= -0.87062714E-11 Z= -0.22256639E-08   Total=     0.00008877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12443364E+01         XY= -0.83870990E-03         XZ= -0.90530018E-03
                YY=  0.12460138E+01         YZ= -0.21101739E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2104927E-04 Y= -0.4155289E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162145E+02         XY= -0.10524826E-03         XZ=  0.29681634E-01
                YY= -0.10161934E+02         YZ=  0.29784792E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44267146E-05 Y= -0.89583128E-11 Z= -0.23263012E-08   Total=     0.00000443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459301E+01         XY= -0.41826476E-04         XZ= -0.14252773E-03
                YY=  0.12460138E+01         YZ= -0.22054746E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1816953E-04 Y= -0.4156012E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162116E+02         XY= -0.90849532E-04         XZ=  0.29691720E-01
                YY= -0.10161934E+02         YZ=  0.29784791E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83023161E-04 Y= -0.59477087E-11 Z= -0.24390595E-08   Total=     0.00008302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12475827E+01         XY=  0.78445513E-03         XZ=  0.68778473E-03
                YY=  0.12460138E+01         YZ= -0.23094999E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8362926E-05 Y= -0.4160346E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162018E+02         XY= -0.41816532E-04         XZ=  0.29737246E-01
                YY= -0.10161934E+02         YZ=  0.29784789E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14008002E-03 Y= -0.90491954E-12 Z= -0.24267572E-08   Total=     0.00014008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12486609E+01         XY=  0.13235644E-02         XZ=  0.12681778E-02
                YY=  0.12460138E+01         YZ= -0.22936628E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4722945E-05 Y= -0.4158179E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161887E+02         XY=  0.23612826E-04         XZ=  0.29801338E-01
                YY= -0.10161934E+02         YZ=  0.29784789E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14435044E-03 Y=  0.39136139E-11 Z= -0.22287300E-08   Total=     0.00014435
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12487416E+01         XY=  0.13639140E-02         XZ=  0.13718893E-02
                YY=  0.12460138E+01         YZ= -0.21025301E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1612281E-04 Y= -0.4152400E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161773E+02         XY=  0.80612167E-04         XZ=  0.29859728E-01
                YY= -0.10161934E+02         YZ=  0.29784788E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93330910E-04 Y=  0.62692542E-11 Z= -0.19428379E-08   Total=     0.00009333
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12477775E+01         XY=  0.88184936E-03         XZ=  0.95137160E-03
                YY=  0.12460138E+01         YZ= -0.18304348E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2143770E-04 Y= -0.4146620E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161720E+02         XY=  0.10718662E-03         XZ=  0.29889944E-01
                YY= -0.10161934E+02         YZ=  0.29784787E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56970074E-05 Y=  0.50252529E-11 Z= -0.17244258E-08   Total=     0.00000570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461215E+01         XY=  0.53828966E-04         XZ=  0.15947537E-03
                YY=  0.12460138E+01         YZ= -0.16251060E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1853239E-04 Y= -0.4140841E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161749E+02         XY=  0.92660060E-04         XZ=  0.29879960E-01
                YY= -0.10161934E+02         YZ=  0.29784786E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85516818E-04 Y=  0.74691322E-12 Z= -0.16233113E-08   Total=     0.00008552
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12443978E+01         XY= -0.80801682E-03         XZ= -0.70594418E-03
                YY=  0.12460138E+01         YZ= -0.15331406E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8391642E-05 Y= -0.4143008E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161850E+02         XY=  0.41956312E-04         XZ=  0.29832982E-01
                YY= -0.10161934E+02         YZ=  0.29784786E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14536269E-03 Y= -0.44911837E-11 Z= -0.15615665E-08   Total=     0.00014536
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12432669E+01         XY= -0.13734784E-02         XZ= -0.13139917E-02
                YY=  0.12460138E+01         YZ= -0.14791749E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5207233E-05 Y= -0.4149510E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161986E+02         XY= -0.26038062E-04         XZ=  0.29766464E-01
                YY= -0.10161934E+02         YZ=  0.29784785E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15036444E-03 Y= -0.80304671E-11 Z= -0.14666119E-08   Total=     0.00015036
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12431723E+01         XY= -0.14207382E-02         XZ= -0.14272098E-02
                YY=  0.12460138E+01         YZ= -0.13924098E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1709911E-04 Y= -0.4165403E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162105E+02         XY= -0.85497454E-04         XZ=  0.29705632E-01
                YY= -0.10161934E+02         YZ=  0.29784784E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97718195E-04 Y= -0.78731598E-11 Z= -0.13693909E-08   Total=     0.00009772
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12441672E+01         XY= -0.92330321E-03         XZ= -0.99424566E-03
                YY=  0.12460138E+01         YZ= -0.13004127E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2269133E-04 Y= -0.4171182E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162161E+02         XY= -0.11345855E-03         XZ=  0.29673935E-01
                YY= -0.10161934E+02         YZ=  0.29784784E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67060465E-05 Y= -0.36667274E-11 Z= -0.13358242E-08   Total=     0.00000671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458871E+01         XY= -0.63362991E-04         XZ= -0.17257326E-03
                YY=  0.12460138E+01         YZ= -0.12651731E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1973590E-04 Y= -0.4169737E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162132E+02         XY= -0.98681394E-04         XZ=  0.29684008E-01
                YY= -0.10161934E+02         YZ=  0.29784783E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.88347965E-04 Y=  0.30471843E-11 Z= -0.13399511E-08   Total=     0.00008835
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12476834E+01         XY=  0.83476732E-03         XZ=  0.72859381E-03
                YY=  0.12460138E+01         YZ= -0.12634479E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9230137E-05 Y= -0.4171182E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162027E+02         XY= -0.46152587E-04         XZ=  0.29732658E-01
                YY= -0.10161934E+02         YZ=  0.29784783E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15101335E-03 Y=  0.94635696E-11 Z= -0.12733222E-08   Total=     0.00015101
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12488676E+01         XY=  0.14268694E-02         XZ=  0.13645734E-02
                YY=  0.12460138E+01         YZ= -0.11951110E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4914167E-05 Y= -0.4165403E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161885E+02         XY=  0.24568935E-04         XZ=  0.29801831E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15670842E-03 Y=  0.12759588E-10 Z= -0.10915712E-08   Total=     0.00015671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12489752E+01         XY=  0.14806801E-02         XZ=  0.14869820E-02
                YY=  0.12460138E+01         YZ= -0.10206036E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1732595E-04 Y= -0.4155289E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161761E+02         XY=  0.86627871E-04         XZ=  0.29865310E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10233206E-03 Y=  0.11394033E-10 Z= -0.89370595E-09   Total=     0.00010233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12479476E+01         XY=  0.96689795E-03         XZ=  0.10406485E-02
                YY=  0.12460138E+01         YZ= -0.83476818E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2321377E-04 Y= -0.4142286E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161702E+02         XY=  0.11606695E-03         XZ=  0.29898650E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78019982E-05 Y=  0.58588196E-11 Z= -0.80778785E-09   Total=     0.00000780
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12461613E+01         XY=  0.73718255E-04         XZ=  0.18789637E-03
                YY=  0.12460138E+01         YZ= -0.75819964E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2021479E-04 Y= -0.4150955E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161732E+02         XY=  0.10107205E-03         XZ=  0.29888588E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.91222822E-04 Y= -0.14811772E-11 Z= -0.82332895E-09   Total=     0.00009122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12442900E+01         XY= -0.86193076E-03         XZ= -0.75030331E-03
                YY=  0.12460138E+01         YZ= -0.77901480E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9340913E-05 Y= -0.4157456E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161841E+02         XY=  0.46702670E-04         XZ=  0.29838315E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15678327E-03 Y= -0.74109410E-11 Z= -0.79785037E-09   Total=     0.00015678
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12430510E+01         XY= -0.14813873E-02         XZ= -0.14150438E-02
                YY=  0.12460138E+01         YZ= -0.75989983E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5355876E-05 Y= -0.4155289E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161988E+02         XY= -0.26781280E-04         XZ=  0.29766512E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16316128E-03 Y= -0.93022845E-11 Z= -0.63866676E-09   Total=     0.00016316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12429305E+01         XY= -0.15416507E-02         XZ= -0.15466945E-02
                YY=  0.12460138E+01         YZ= -0.61107673E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1829083E-04 Y= -0.4162513E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162117E+02         XY= -0.91456064E-04         XZ=  0.29700421E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10695345E-03 Y= -0.63164447E-11 Z= -0.42129327E-09   Total=     0.00010695
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12439927E+01         XY= -0.10105637E-02         XZ= -0.10861770E-02
                YY=  0.12460138E+01         YZ= -0.40318722E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2446633E-04 Y= -0.4164681E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162179E+02         XY= -0.12233354E-03         XZ=  0.29665525E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87357418E-05 Y=  0.18183817E-12 Z= -0.28510949E-09   Total=     0.00000874
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458487E+01         XY= -0.82540797E-04         XZ= -0.20083984E-03
                YY=  0.12460138E+01         YZ= -0.26906292E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2140001E-04 Y= -0.4154567E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162148E+02         XY= -0.10700193E-03         XZ=  0.29675739E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.94455030E-04 Y=  0.72025527E-11 Z= -0.24650709E-09   Total=     0.00009446
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12477987E+01         XY=  0.89247076E-03         XZ=  0.77620671E-03
                YY=  0.12460138E+01         YZ= -0.22669338E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1011775E-04 Y= -0.4136507E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162035E+02         XY= -0.50590639E-04         XZ=  0.29727879E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16308173E-03 Y=  0.11454785E-10 Z= -0.18278529E-09   Total=     0.00016308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12490956E+01         XY=  0.15408992E-02         XZ=  0.14713654E-02
                YY=  0.12460138E+01         YZ= -0.16290275E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5184655E-05 Y= -0.4127838E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161882E+02         XY=  0.25921380E-04         XZ=  0.29802625E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17024989E-03 Y=  0.10827969E-10 Z= -0.69888480E-11   Total=     0.00017025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12492311E+01         XY=  0.16086285E-02         XZ=  0.16133514E-02
                YY=  0.12460138E+01         YZ=  0.26934793E-10         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1870222E-04 Y= -0.4118446E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161747E+02         XY=  0.93509216E-04         XZ=  0.29871673E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11223557E-03 Y=  0.53616631E-11 Z=  0.20895671E-09   Total=     0.00011224
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12481347E+01         XY=  0.10604725E-02         XZ=  0.11389566E-02
                YY=  0.12460138E+01         YZ=  0.20216145E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2522387E-04 Y= -0.4106166E-09 Z=  0.5956956E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161682E+02         XY=  0.12611747E-03         XZ=  0.29908467E-01
                YY= -0.10161934E+02         YZ=  0.29784780E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10281431E-04 Y= -0.27402536E-11 Z=  0.33399758E-09   Total=     0.00001028
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462081E+01         XY=  0.97145415E-04         XZ=  0.22058346E-03
                YY=  0.12460138E+01         YZ=  0.31351723E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2214208E-04 Y= -0.4100386E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161713E+02         XY=  0.11070851E-03         XZ=  0.29898410E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97166472E-04 Y= -0.10066353E-10 Z=  0.36064873E-09   Total=     0.00009717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12441776E+01         XY= -0.91809020E-03         XZ= -0.79625040E-03
                YY=  0.12460138E+01         YZ=  0.33254876E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1049448E-04 Y= -0.4098219E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161829E+02         XY=  0.52470491E-04         XZ=  0.29844659E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16895016E-03 Y= -0.13502294E-10 Z=  0.41151841E-09   Total=     0.00016895
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12428211E+01         XY= -0.15963478E-02         XZ= -0.15228483E-02
                YY=  0.12460138E+01         YZ=  0.37772076E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5377628E-05 Y= -0.4106166E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161988E+02         XY= -0.26890039E-04         XZ=  0.29767186E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17695948E-03 Y= -0.11611041E-10 Z=  0.55574917E-09   Total=     0.00017696
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12426697E+01         XY= -0.16720249E-02         XZ= -0.16758711E-02
                YY=  0.12460138E+01         YZ=  0.51557629E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1944422E-04 Y= -0.4117002E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162129E+02         XY= -0.97222982E-04         XZ=  0.29695372E-01
                YY= -0.10161934E+02         YZ=  0.29784781E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11712785E-03 Y= -0.52699646E-11 Z=  0.69495331E-09   Total=     0.00011713
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12438004E+01         XY= -0.11066979E-02         XZ= -0.11877315E-02
                YY=  0.12460138E+01         YZ=  0.65242064E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2627480E-04 Y= -0.4119169E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162197E+02         XY= -0.13137590E-03         XZ=  0.29656880E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11367348E-04 Y=  0.27207291E-11 Z=  0.69202616E-09   Total=     0.00001137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457990E+01         XY= -0.10740585E-03         XZ= -0.23587036E-03
                YY=  0.12460138E+01         YZ=  0.65636059E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2313192E-04 Y= -0.4117724E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162166E+02         XY= -0.11566152E-03         XZ=  0.29667013E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10044055E-03 Y=  0.88814902E-11 Z=  0.57691415E-09   Total=     0.00010044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12479118E+01         XY=  0.94902572E-03         XZ=  0.82157307E-03
                YY=  0.12460138E+01         YZ=  0.55277031E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1106330E-04 Y= -0.4114834E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162045E+02         XY= -0.55318408E-04         XZ=  0.29722650E-01
                YY= -0.10161934E+02         YZ=  0.29784782E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17547704E-03 Y=  0.10590641E-10 Z=  0.54040828E-09   Total=     0.00017548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12493298E+01         XY=  0.16580178E-02         XZ=  0.15804411E-02
                YY=  0.12460138E+01         YZ=  0.51971788E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5442074E-05 Y= -0.4115557E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161880E+02         XY=  0.27208474E-04         XZ=  0.29803164E-01
                YY= -0.10161934E+02         YZ=  0.29784783E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18437768E-03 Y=  0.72278730E-11 Z=  0.70568976E-09   Total=     0.00018438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12494980E+01         XY=  0.17421167E-02         XZ=  0.17449651E-02
                YY=  0.12460138E+01         YZ=  0.67306903E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2012388E-04 Y= -0.4108333E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161733E+02         XY=  0.10061751E-03         XZ=  0.29878069E-01
                YY= -0.10161934E+02         YZ=  0.29784783E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12271122E-03 Y=  0.41820642E-12 Z=  0.97597551E-09   Total=     0.00012271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12483327E+01         XY=  0.11594530E-02         XZ=  0.12429355E-02
                YY=  0.12460138E+01         YZ=  0.92274025E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2732583E-04 Y= -0.4105443E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161661E+02         XY=  0.13662725E-03         XZ=  0.29918565E-01
                YY= -0.10161934E+02         YZ=  0.29784783E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13063263E-04 Y= -0.67227539E-11 Z=  0.11651387E-08   Total=     0.00001306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462606E+01         XY=  0.12342989E-03         XZ=  0.25682863E-03
                YY=  0.12460138E+01         YZ=  0.10954830E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2417554E-04 Y= -0.4117724E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161693E+02         XY=  0.12087579E-03         XZ=  0.29908617E-01
                YY= -0.10161934E+02         YZ=  0.29784784E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10321876E-03 Y= -0.10993455E-10 Z=  0.12382258E-08   Total=     0.00010322
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12440632E+01         XY= -0.97527608E-03         XZ= -0.84233569E-03
                YY=  0.12460138E+01         YZ=  0.11609590E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1172934E-04 Y= -0.4140841E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161817E+02         XY=  0.58644813E-04         XZ=  0.29851299E-01
                YY= -0.10161934E+02         YZ=  0.29784784E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18160844E-03 Y= -0.10525966E-10 Z=  0.13375531E-08   Total=     0.00018161
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12425819E+01         XY= -0.17159512E-02         XZ= -0.16345017E-02
                YY=  0.12460138E+01         YZ=  0.12552064E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5373114E-05 Y= -0.4159624E-09 Z=  0.5956957E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161988E+02         XY= -0.26867477E-04         XZ=  0.29767908E-01
                YY= -0.10161934E+02         YZ=  0.29784785E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19144102E-03 Y= -0.55886765E-11 Z=  0.15624367E-08   Total=     0.00019144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12423961E+01         XY= -0.18088555E-02         XZ= -0.18110232E-02
                YY=  0.12460138E+01         YZ=  0.14718399E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2063460E-04 Y= -0.4162513E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162141E+02         XY= -0.10317490E-03         XZ=  0.29690067E-01
                YY= -0.10161934E+02         YZ=  0.29784786E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12789340E-03 Y=  0.15734831E-11 Z=  0.18112206E-08   Total=     0.00012789
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12435969E+01         XY= -0.12084175E-02         XZ= -0.12947901E-02
                YY=  0.12460138E+01         YZ=  0.17129254E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2816505E-04 Y= -0.4158901E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162216E+02         XY= -0.14082714E-03         XZ=  0.29647752E-01
                YY= -0.10161934E+02         YZ=  0.29784787E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14228734E-04 Y=  0.77701286E-11 Z=  0.19106591E-08   Total=     0.00001423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12457449E+01         XY= -0.13444198E-03         XZ= -0.27332661E-03
                YY=  0.12460138E+01         YZ=  0.18120914E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2495081E-04 Y= -0.4155289E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162184E+02         XY= -0.12475596E-03         XZ=  0.29657764E-01
                YY= -0.10161934E+02         YZ=  0.29784787E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10670337E-03 Y=  0.10289192E-10 Z=  0.18574574E-08   Total=     0.00010670
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12480302E+01         XY=  0.10082008E-02         XZ=  0.86914842E-03
                YY=  0.12460138E+01         YZ=  0.17639508E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1205471E-04 Y= -0.4148788E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162055E+02         XY= -0.60275426E-04         XZ=  0.29717087E-01
                YY= -0.10161934E+02         YZ=  0.29784788E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18861153E-03 Y=  0.80707436E-11 Z=  0.18332568E-08   Total=     0.00018861
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12495780E+01         XY=  0.17821207E-02         XZ=  0.16961547E-02
                YY=  0.12460138E+01         YZ=  0.17392410E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5729742E-05 Y= -0.4139396E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161877E+02         XY=  0.28646811E-04         XZ=  0.29803740E-01
                YY= -0.10161934E+02         YZ=  0.29784789E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19947243E-03 Y=  0.21158018E-11 Z=  0.19634772E-08   Total=     0.00019947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12497832E+01         XY=  0.18847413E-02         XZ=  0.18856116E-02
                YY=  0.12460138E+01         YZ=  0.18573070E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2166057E-04 Y= -0.4143731E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161718E+02         XY=  0.10830094E-03         XZ=  0.29884927E-01
                YY= -0.10161934E+02         YZ=  0.29784790E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13403398E-03 Y= -0.50286231E-11 Z=  0.21511768E-08   Total=     0.00013403
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12485466E+01         XY=  0.12664376E-02         XZ=  0.13551255E-02
                YY=  0.12460138E+01         YZ=  0.20286861E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2960411E-04 Y= -0.4148065E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161638E+02         XY=  0.14801865E-03         XZ=  0.29929448E-01
                YY= -0.10161934E+02         YZ=  0.29784791E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16235960E-04 Y= -0.10448558E-10 Z=  0.22224372E-08   Total=     0.00001624
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463206E+01         XY=  0.15340749E-03         XZ=  0.29721887E-03
                YY=  0.12460138E+01         YZ=  0.20914922E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2639707E-04 Y= -0.4158901E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161670E+02         XY=  0.13198346E-03         XZ=  0.29919691E-01
                YY= -0.10161934E+02         YZ=  0.29784792E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10953224E-03 Y= -0.12157408E-10 Z=  0.21870909E-08   Total=     0.00010953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12439439E+01         XY= -0.10349298E-02         XZ= -0.89036569E-03
                YY=  0.12460138E+01         YZ=  0.20566790E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1310488E-04 Y= -0.4171182E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161803E+02         XY=  0.65522514E-04         XZ=  0.29858592E-01
                YY= -0.10161934E+02         YZ=  0.29784792E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19515069E-03 Y= -0.99235775E-11 Z=  0.22459141E-08   Total=     0.00019515
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12423260E+01         XY= -0.18439068E-02         XZ= -0.17541294E-02
                YY=  0.12460138E+01         YZ=  0.21141473E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5322945E-05 Y= -0.4183463E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161988E+02         XY= -0.26616639E-04         XZ=  0.29768824E-01
                YY= -0.10161934E+02         YZ=  0.29784793E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20717110E-03 Y= -0.52796150E-11 Z=  0.25171245E-08   Total=     0.00020717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12420988E+01         XY= -0.19574832E-02         XZ= -0.19579160E-02
                YY=  0.12460138E+01         YZ=  0.23743140E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2189243E-04 Y= -0.4192854E-09 Z=  0.5956959E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162153E+02         XY= -0.10946405E-03         XZ=  0.29684390E-01
                YY= -0.10161934E+02         YZ=  0.29784794E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13986822E-03 Y= -0.74302353E-12 Z=  0.28512723E-08   Total=     0.00013987
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12433706E+01         XY= -0.13215632E-02         XZ= -0.14136058E-02
                YY=  0.12460138E+01         YZ=  0.26938620E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3021656E-04 Y= -0.4194299E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162236E+02         XY= -0.15108472E-03         XZ=  0.29637767E-01
                YY= -0.10161934E+02         YZ=  0.29784796E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17854085E-04 Y=  0.13669901E-11 Z=  0.29996401E-08   Total=     0.00001785
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456764E+01         XY= -0.16869664E-03         XZ= -0.31864334E-03
                YY=  0.12460138E+01         YZ=  0.28358432E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2697397E-04 Y= -0.4195744E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162204E+02         XY= -0.13487177E-03         XZ=  0.29647416E-01
                YY= -0.10161934E+02         YZ=  0.29784797E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11290419E-03 Y= -0.35353222E-13 Z=  0.29224752E-08   Total=     0.00011290
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12481473E+01         XY=  0.10667900E-02         XZ=  0.91538720E-03
                YY=  0.12460138E+01         YZ=  0.27617860E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1322889E-04 Y= -0.4188520E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162067E+02         XY= -0.66146367E-04         XZ=  0.29710504E-01
                YY= -0.10161934E+02         YZ=  0.29784798E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20239193E-03 Y= -0.43761315E-11 Z=  0.28237465E-08   Total=     0.00020239
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12498384E+01         XY=  0.19123266E-02         XZ=  0.18173757E-02
                YY=  0.12460138E+01         YZ=  0.26648886E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5910832E-05 Y= -0.4189965E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161875E+02         XY=  0.29552242E-04         XZ=  0.29803660E-01
                YY= -0.10161934E+02         YZ=  0.29784799E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21566681E-03 Y= -0.97684078E-11 Z=  0.28652246E-08   Total=     0.00021567
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12500893E+01         XY=  0.20377559E-02         XZ=  0.20364437E-02
                YY=  0.12460138E+01         YZ=  0.26995775E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2319150E-04 Y= -0.4193577E-09 Z=  0.5956960E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161702E+02         XY=  0.11595560E-03         XZ=  0.29891636E-01
                YY= -0.10161934E+02         YZ=  0.29784800E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14648583E-03 Y= -0.13935655E-10 Z=  0.29516246E-08   Total=     0.00014649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12487820E+01         XY=  0.13840904E-02         XZ=  0.14782942E-02
                YY=  0.12460138E+01         YZ=  0.27777268E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3196277E-04 Y= -0.4200079E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161615E+02         XY=  0.15981194E-03         XZ=  0.29940635E-01
                YY= -0.10161934E+02         YZ=  0.29784801E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20131296E-04 Y= -0.15260213E-10 Z=  0.28828329E-08   Total=     0.00002013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12463942E+01         XY=  0.19021304E-03         XZ=  0.34522255E-03
                YY=  0.12460138E+01         YZ=  0.27116138E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2873678E-04 Y= -0.4210192E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161647E+02         XY=  0.14368194E-03         XZ=  0.29931298E-01
                YY= -0.10161934E+02         YZ=  0.29784802E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11580996E-03 Y= -0.13469056E-10 Z=  0.26602429E-08   Total=     0.00011581
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12438253E+01         XY= -0.10942456E-02         XZ= -0.93699654E-03
                YY=  0.12460138E+01         YZ=  0.25027906E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1457311E-04 Y= -0.4218139E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161789E+02         XY=  0.72863596E-04         XZ=  0.29866339E-01
                YY= -0.10161934E+02         YZ=  0.29784803E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20935867E-03 Y= -0.96606941E-11 Z=  0.25130535E-08   Total=     0.00020936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12420575E+01         XY= -0.19781529E-02         XZ= -0.18790083E-02
                YY=  0.12460138E+01         YZ=  0.23669068E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5259099E-05 Y= -0.4225363E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161987E+02         XY= -0.26297432E-04         XZ=  0.29769838E-01
                YY= -0.10161934E+02         YZ=  0.29784804E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22400885E-03 Y= -0.56970616E-11 Z=  0.25940760E-08   Total=     0.00022401
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12417806E+01         XY= -0.21165769E-02         XZ= -0.21145555E-02
                YY=  0.12460138E+01         YZ=  0.24467917E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2323827E-04 Y= -0.4227530E-09 Z=  0.5956961E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162167E+02         XY= -0.11619328E-03         XZ=  0.29678326E-01
                YY= -0.10161934E+02         YZ=  0.29784805E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15295881E-03 Y= -0.32801425E-11 Z=  0.27614982E-08   Total=     0.00015296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12431233E+01         XY= -0.14452513E-02         XZ= -0.15427580E-02
                YY=  0.12460138E+01         YZ=  0.26070260E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3244059E-04 Y= -0.4228975E-09 Z=  0.5956962E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162259E+02         XY= -0.16220487E-03         XZ=  0.29626970E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22166460E-04 Y= -0.31654535E-11 Z=  0.27594340E-08   Total=     0.00002217
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455949E+01         XY= -0.20944273E-03         XZ= -0.37077460E-03
                YY=  0.12460138E+01         YZ=  0.26051907E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2920385E-04 Y= -0.4234754E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162226E+02         XY= -0.14602120E-03         XZ=  0.29636064E-01
                YY= -0.10161934E+02         YZ=  0.29784807E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11911063E-03 Y= -0.48775893E-11 Z=  0.25622152E-08   Total=     0.00011911
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12482646E+01         XY=  0.11254323E-02         XZ=  0.96100009E-03
                YY=  0.12460138E+01         YZ=  0.24174221E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1458081E-04 Y= -0.4239811E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162080E+02         XY= -0.72906007E-04         XZ=  0.29703030E-01
                YY= -0.10161934E+02         YZ=  0.29784808E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21685145E-03 Y= -0.70364698E-11 Z=  0.24091059E-08   Total=     0.00021685
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12501117E+01         XY=  0.20489492E-02         XZ=  0.19442841E-02
                YY=  0.12460138E+01         YZ=  0.22709416E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5993479E-05 Y= -0.4244868E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161874E+02         XY=  0.29965451E-04         XZ=  0.29803058E-01
                YY= -0.10161934E+02         YZ=  0.29784809E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23291340E-03 Y= -0.81049651E-11 Z=  0.24724985E-08   Total=     0.00023291
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12504152E+01         XY=  0.22007127E-02         XZ=  0.21967669E-02
                YY=  0.12460138E+01         YZ=  0.23299249E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2471962E-04 Y= -0.4247757E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161687E+02         XY=  0.12359617E-03         XZ=  0.29898288E-01
                YY= -0.10161934E+02         YZ=  0.29784810E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15989730E-03 Y= -0.71728230E-11 Z=  0.26124999E-08   Total=     0.00015990
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12490354E+01         XY=  0.15108105E-02         XZ=  0.16105858E-02
                YY=  0.12460138E+01         YZ=  0.24629632E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3438879E-04 Y= -0.4256426E-09 Z=  0.5956963E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161590E+02         XY=  0.17194198E-03         XZ=  0.29952128E-01
                YY= -0.10161934E+02         YZ=  0.29784811E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24448747E-04 Y= -0.43898545E-11 Z=  0.25634260E-08   Total=     0.00002445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12464758E+01         XY=  0.23100714E-03         XZ=  0.39781385E-03
                YY=  0.12460138E+01         YZ=  0.24189077E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3115572E-04 Y= -0.4259316E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161623E+02         XY=  0.15577663E-03         XZ=  0.29943303E-01
                YY= -0.10161934E+02         YZ=  0.29784812E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12244422E-03 Y= -0.84804296E-12 Z=  0.23035385E-08   Total=     0.00012244
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12436999E+01         XY= -0.11569302E-02         XZ= -0.98603005E-03
                YY=  0.12460138E+01         YZ=  0.21763130E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1606390E-04 Y= -0.4258594E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161774E+02         XY=  0.80317567E-04         XZ=  0.29874243E-01
                YY= -0.10161934E+02         YZ=  0.29784813E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22463359E-03 Y=  0.20082870E-11 Z=  0.20941562E-08   Total=     0.00022463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12417688E+01         XY= -0.21224798E-02         XZ= -0.20129649E-02
                YY=  0.12460138E+01         YZ=  0.19808803E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5280757E-05 Y= -0.4253537E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161987E+02         XY= -0.26405738E-04         XZ=  0.29770507E-01
                YY= -0.10161934E+02         YZ=  0.29784814E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24226257E-03 Y=  0.31332475E-11 Z=  0.21205541E-08   Total=     0.00024226
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12414357E+01         XY= -0.22890496E-02         XZ= -0.22838932E-02
                YY=  0.12460138E+01         YZ=  0.20067858E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2479058E-04 Y= -0.4245590E-09 Z=  0.5956963E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162182E+02         XY= -0.12395483E-03         XZ=  0.29671332E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16729486E-03 Y=  0.24066495E-11 Z=  0.22238231E-08   Total=     0.00016729
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12428524E+01         XY= -0.15807073E-02         XZ= -0.16835681E-02
                YY=  0.12460138E+01         YZ=  0.21037685E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3495970E-04 Y= -0.4246313E-09 Z=  0.5956963E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162284E+02         XY= -0.17480047E-03         XZ=  0.29614794E-01
                YY= -0.10161934E+02         YZ=  0.29784815E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27078130E-04 Y=  0.67282941E-12 Z=  0.21042892E-08   Total=     0.00002708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12455021E+01         XY= -0.25585124E-03         XZ= -0.42906254E-03
                YY=  0.12460138E+01         YZ=  0.19893750E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3175095E-04 Y= -0.4252092E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162252E+02         XY= -0.15875669E-03         XZ=  0.29623194E-01
                YY= -0.10161934E+02         YZ=  0.29784816E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12560593E-03 Y= -0.72324688E-12 Z=  0.17325010E-08   Total=     0.00012561
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12483874E+01         XY=  0.11868040E-02         XZ=  0.10084476E-02
                YY=  0.12460138E+01         YZ=  0.16369016E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1619618E-04 Y= -0.4252092E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162096E+02         XY= -0.80982830E-04         XZ=  0.29694267E-01
                YY= -0.10161934E+02         YZ=  0.29784817E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23239506E-03 Y= -0.66122833E-12 Z=  0.14056585E-08   Total=     0.00023240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12504054E+01         XY=  0.21958151E-02         XZ=  0.20805094E-02
                YY=  0.12460138E+01         YZ=  0.13281053E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5922786E-05 Y= -0.4253537E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161875E+02         XY=  0.29611980E-04         XZ=  0.29801683E-01
                YY= -0.10161934E+02         YZ=  0.29784817E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25164106E-03 Y=  0.11419864E-11 Z=  0.13620607E-08   Total=     0.00025164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12507691E+01         XY=  0.23776634E-02         XZ=  0.23705178E-02
                YY=  0.12460138E+01         YZ=  0.12883947E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2621946E-04 Y= -0.4249202E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161672E+02         XY=  0.13109536E-03         XZ=  0.29904781E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17463395E-03 Y=  0.39505477E-11 Z=  0.14748628E-08   Total=     0.00017463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12493139E+01         XY=  0.16500517E-02         XZ=  0.17554491E-02
                YY=  0.12460138E+01         YZ=  0.13973138E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3687925E-04 Y= -0.4244145E-09 Z=  0.5956964E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161566E+02         XY=  0.18439428E-03         XZ=  0.29963941E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29442143E-04 Y=  0.63609716E-11 Z=  0.14453206E-08   Total=     0.00002944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465702E+01         XY=  0.27818799E-03         XZ=  0.45747184E-03
                YY=  0.12460138E+01         YZ=  0.13714174E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3366468E-04 Y= -0.4230420E-09 Z=  0.5956964E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161598E+02         XY=  0.16832145E-03         XZ=  0.29955795E-01
                YY= -0.10161934E+02         YZ=  0.29784819E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12929236E-03 Y=  0.70182827E-11 Z=  0.12285130E-08   Total=     0.00012929
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12435705E+01         XY= -0.12216357E-02         XZ= -0.10360221E-02
                YY=  0.12460138E+01         YZ=  0.11671231E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1759448E-04 Y= -0.4207303E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161758E+02         XY=  0.87970434E-04         XZ=  0.29882432E-01
                YY= -0.10161934E+02         YZ=  0.29784819E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24090436E-03 Y=  0.53392241E-11 Z=  0.10964733E-08   Total=     0.00024090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12414614E+01         XY= -0.22762163E-02         XZ= -0.21553014E-02
                YY=  0.12460138E+01         YZ=  0.10409660E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5367663E-05 Y= -0.4202968E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161988E+02         XY= -0.26840253E-04         XZ=  0.29770976E-01
                YY= -0.10161934E+02         YZ=  0.29784819E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26187824E-03 Y=  0.18721261E-11 Z=  0.12427894E-08   Total=     0.00026188
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12410650E+01         XY= -0.24743908E-02         XZ= -0.24655246E-02
                YY=  0.12460138E+01         YZ=  0.11763091E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2652523E-04 Y= -0.4208025E-09 Z=  0.5956964E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162200E+02         XY= -0.13262810E-03         XZ=  0.29663566E-01
                YY= -0.10161934E+02         YZ=  0.29784820E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18279667E-03 Y= -0.19042597E-11 Z=  0.14806715E-08   Total=     0.00018280
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12425594E+01         XY= -0.17271782E-02         XZ= -0.18355300E-02
                YY=  0.12460138E+01         YZ=  0.13978951E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3774258E-04 Y= -0.4213082E-09 Z=  0.5956964E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162312E+02         XY= -0.18871486E-03         XZ=  0.29601424E-01
                YY= -0.10161934E+02         YZ=  0.29784820E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32470372E-04 Y= -0.42647476E-11 Z=  0.14753287E-08   Total=     0.00003247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454002E+01         XY= -0.30680059E-03         XZ= -0.49272230E-03
                YY=  0.12460138E+01         YZ=  0.13908399E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3457332E-04 Y= -0.4219584E-09 Z=  0.5956965E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162280E+02         XY= -0.17286852E-03         XZ=  0.29609030E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13253012E-03 Y= -0.40826697E-11 Z=  0.12111422E-08   Total=     0.00013253
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12485183E+01         XY=  0.12522281E-02         XZ=  0.10587177E-02
                YY=  0.12460138E+01         YZ=  0.11413371E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1802113E-04 Y= -0.4233309E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162115E+02         XY= -0.90107568E-04         XZ=  0.29684488E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24914850E-03 Y= -0.14212924E-11 Z=  0.10441126E-08   Total=     0.00024915
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12507220E+01         XY=  0.23541121E-02         XZ=  0.22270010E-02
                YY=  0.12460138E+01         YZ=  0.98571552E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5762860E-05 Y= -0.4233309E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161877E+02         XY=  0.28812356E-04         XZ=  0.29799854E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27192790E-03 Y=  0.24318424E-11 Z=  0.12395458E-08   Total=     0.00027193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12511525E+01         XY=  0.25693464E-02         XZ=  0.25583541E-02
                YY=  0.12460138E+01         YZ=  0.11735805E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2776144E-04 Y= -0.4220306E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161657E+02         XY=  0.13880524E-03         XZ=  0.29911463E-01
                YY= -0.10161934E+02         YZ=  0.29784822E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19071233E-03 Y=  0.55293468E-11 Z=  0.16095850E-08   Total=     0.00019071
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12496177E+01         XY=  0.18019704E-02         XZ=  0.19131238E-02
                YY=  0.12460138E+01         YZ=  0.15258011E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3950633E-04 Y= -0.4203691E-09 Z=  0.5956965E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161539E+02         XY=  0.19752972E-03         XZ=  0.29976435E-01
                YY= -0.10161934E+02         YZ=  0.29784822E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35077502E-04 Y=  0.61778801E-11 Z=  0.17521098E-08   Total=     0.00003508
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12466767E+01         XY=  0.33143442E-03         XZ=  0.52407482E-03
                YY=  0.12460138E+01         YZ=  0.16610060E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3633421E-04 Y= -0.4194299E-09 Z=  0.5956965E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161571E+02         XY=  0.18166913E-03         XZ=  0.29969134E-01
                YY= -0.10161934E+02         YZ=  0.29784823E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13641036E-03 Y=  0.37731774E-11 Z=  0.15799758E-08   Total=     0.00013641
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12434360E+01         XY= -0.12888911E-02         XZ= -0.10872638E-02
                YY=  0.12460138E+01         YZ=  0.14963429E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1923247E-04 Y= -0.4192854E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161742E+02         XY=  0.96160406E-04         XZ=  0.29891255E-01
                YY= -0.10161934E+02         YZ=  0.29784823E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25821889E-03 Y= -0.84933992E-12 Z=  0.14245280E-08   Total=     0.00025822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12411342E+01         XY= -0.24398149E-02         XZ= -0.23062706E-02
                YY=  0.12460138E+01         YZ=  0.13455813E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5454494E-05 Y= -0.4209470E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161989E+02         XY= -0.27274408E-04         XZ=  0.29771584E-01
                YY= -0.10161934E+02         YZ=  0.29784824E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28288020E-03 Y= -0.57358458E-11 Z=  0.15724335E-08   Total=     0.00028288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12406681E+01         XY= -0.26728305E-02         XZ= -0.26595636E-02
                YY=  0.12460138E+01         YZ=  0.14812187E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2837804E-04 Y= -0.4225363E-09 Z=  0.5956965E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162218E+02         XY= -0.14189214E-03         XZ=  0.29655363E-01
                YY= -0.10161934E+02         YZ=  0.29784825E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19947193E-03 Y= -0.86810958E-11 Z=  0.18747936E-08   Total=     0.00019947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12422443E+01         XY= -0.18847367E-02         XZ= -0.19986899E-02
                YY=  0.12460138E+01         YZ=  0.17644150E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4072581E-04 Y= -0.4239811E-09 Z=  0.5956965E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162342E+02         XY= -0.20363100E-03         XZ=  0.29587183E-01
                YY= -0.10161934E+02         YZ=  0.29784825E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38359541E-04 Y= -0.82513531E-11 Z=  0.19724063E-08   Total=     0.00003836
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12452889E+01         XY= -0.36244521E-03         XZ= -0.56194414E-03
                YY=  0.12460138E+01         YZ=  0.18569807E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3760973E-04 Y= -0.4255704E-09 Z=  0.5956966E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162310E+02         XY= -0.18805058E-03         XZ=  0.29593879E-01
                YY= -0.10161934E+02         YZ=  0.29784826E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13982783E-03 Y= -0.44882141E-11 Z=  0.18250201E-08   Total=     0.00013983
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12486561E+01         XY=  0.13211815E-02         XZ=  0.11112296E-02
                YY=  0.12460138E+01         YZ=  0.17208530E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1999966E-04 Y= -0.4252092E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162134E+02         XY= -0.10000022E-03         XZ=  0.29673967E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26699789E-03 Y=  0.10464137E-11 Z=  0.17954821E-08   Total=     0.00026700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12510593E+01         XY=  0.25227645E-02         XZ=  0.23826350E-02
                YY=  0.12460138E+01         YZ=  0.16975683E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5560870E-05 Y= -0.4246313E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161879E+02         XY=  0.27802411E-04         XZ=  0.29797795E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29360343E-03 Y=  0.59255309E-11 Z=  0.21472082E-08   Total=     0.00029360
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12515621E+01         XY=  0.27741504E-02         XZ=  0.27586346E-02
                YY=  0.12460138E+01         YZ=  0.20339861E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2938116E-04 Y= -0.4245590E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161641E+02         XY=  0.14690386E-03         XZ=  0.29918496E-01
                YY= -0.10161934E+02         YZ=  0.29784828E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20792888E-03 Y=  0.79297933E-11 Z=  0.26430215E-08   Total=     0.00020793
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12499431E+01         XY=  0.19646432E-02         XZ=  0.20816592E-02
                YY=  0.12460138E+01         YZ=  0.25041469E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4229341E-04 Y= -0.4238366E-09 Z=  0.5956966E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161511E+02         XY=  0.21146511E-03         XZ=  0.29989708E-01
                YY= -0.10161934E+02         YZ=  0.29784829E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41154307E-04 Y=  0.60552298E-11 Z=  0.28239239E-08   Total=     0.00004115
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12467915E+01         XY=  0.38885191E-03         XZ=  0.59567652E-03
                YY=  0.12460138E+01         YZ=  0.26735168E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3917708E-04 Y= -0.4231142E-09 Z=  0.5956966E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161543E+02         XY=  0.19588346E-03         XZ=  0.29983360E-01
                YY= -0.10161934E+02         YZ=  0.29784830E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14396068E-03 Y=  0.99263093E-12 Z=  0.26156479E-08   Total=     0.00014396
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12432933E+01         XY= -0.13602313E-02         XZ= -0.11413872E-02
                YY=  0.12460138E+01         YZ=  0.24724978E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2098347E-04 Y= -0.4223918E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161725E+02         XY=  0.10491543E-03         XZ=  0.29900714E-01
                YY= -0.10161934E+02         YZ=  0.29784831E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27667862E-03 Y= -0.51512620E-11 Z=  0.24347303E-08   Total=     0.00027668
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12407853E+01         XY= -0.26142342E-02         XZ= -0.24669731E-02
                YY=  0.12460138E+01         YZ=  0.22964211E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5538589E-05 Y= -0.4225363E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161990E+02         XY= -0.27694880E-04         XZ=  0.29772313E-01
                YY= -0.10161934E+02         YZ=  0.29784832E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30530120E-03 Y= -0.97776180E-11 Z=  0.26296771E-08   Total=     0.00030530
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12402444E+01         XY= -0.28846784E-02         XZ= -0.28664816E-02
                YY=  0.12460138E+01         YZ=  0.24767509E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3034504E-04 Y= -0.4226808E-09 Z=  0.5956967E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162238E+02         XY= -0.15172716E-03         XZ=  0.29646703E-01
                YY= -0.10161934E+02         YZ=  0.29784833E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21728751E-03 Y= -0.10956062E-10 Z=  0.30098041E-08   Total=     0.00021729
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12419076E+01         XY= -0.20530695E-02         XZ= -0.21728707E-02
                YY=  0.12460138E+01         YZ=  0.28349333E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4390016E-04 Y= -0.4231142E-09 Z=  0.5956967E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162373E+02         XY= -0.21950276E-03         XZ=  0.29572079E-01
                YY= -0.10161934E+02         YZ=  0.29784835E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44651128E-04 Y= -0.83000849E-11 Z=  0.31135633E-08   Total=     0.00004465
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12451700E+01         XY= -0.42189210E-03         XZ= -0.63589638E-03
                YY=  0.12460138E+01         YZ=  0.29351954E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4084169E-04 Y= -0.4224640E-09 Z=  0.5956968E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162343E+02         XY= -0.20421042E-03         XZ=  0.29577796E-01
                YY= -0.10161934E+02         YZ=  0.29784836E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14765514E-03 Y= -0.31594234E-11 Z=  0.28577946E-08   Total=     0.00014766
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12488040E+01         XY=  0.13951389E-02         XZ=  0.11675057E-02
                YY=  0.12460138E+01         YZ=  0.26978375E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2209954E-04 Y= -0.4221751E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162155E+02         XY= -0.11049965E-03         XZ=  0.29662834E-01
                YY= -0.10161934E+02         YZ=  0.29784837E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28616507E-03 Y=  0.19642364E-11 Z=  0.26707366E-08   Total=     0.00028617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12514215E+01         XY=  0.27038681E-02         XZ=  0.25496691E-02
                YY=  0.12460138E+01         YZ=  0.25253958E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5367705E-05 Y= -0.4218861E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161881E+02         XY=  0.26836575E-04         XZ=  0.29795742E-01
                YY= -0.10161934E+02         YZ=  0.29784838E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31695510E-03 Y=  0.45214342E-11 Z=  0.29093535E-08   Total=     0.00031696
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12520033E+01         XY=  0.29947917E-02         XZ=  0.29743223E-02
                YY=  0.12460138E+01         YZ=  0.27530202E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3115260E-04 Y= -0.4205858E-09 Z=  0.5956968E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161623E+02         XY=  0.15576106E-03         XZ=  0.29926247E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22662062E-03 Y=  0.30473029E-11 Z=  0.33565849E-08   Total=     0.00022662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12502963E+01         XY=  0.21412546E-02         XZ=  0.22645162E-02
                YY=  0.12460138E+01         YZ=  0.31743880E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4533968E-04 Y= -0.4196466E-09 Z=  0.5956968E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161481E+02         XY=  0.22669646E-03         XZ=  0.30004266E-01
                YY= -0.10161934E+02         YZ=  0.29784840E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48019282E-04 Y= -0.21838962E-11 Z=  0.35048674E-08   Total=     0.00004802
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12469212E+01         XY=  0.45371644E-03         XZ=  0.67579295E-03
                YY=  0.12460137E+01         YZ=  0.33101426E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4231569E-04 Y= -0.4199356E-09 Z=  0.5956969E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161511E+02         XY=  0.21157649E-03         XZ=  0.29999106E-01
                YY= -0.10161934E+02         YZ=  0.29784842E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15164844E-03 Y= -0.92742957E-11 Z=  0.32523844E-08   Total=     0.00015165
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12431480E+01         XY= -0.14328702E-02         XZ= -0.11954617E-02
                YY=  0.12460137E+01         YZ=  0.30656616E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2298569E-04 Y= -0.4210192E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161704E+02         XY=  0.11492649E-03         XZ=  0.29911525E-01
                YY= -0.10161934E+02         YZ=  0.29784843E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29611000E-03 Y= -0.15534893E-10 Z=  0.30500554E-08   Total=     0.00029611
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12404181E+01         XY= -0.27978341E-02         XZ= -0.26357572E-02
                YY=  0.12460137E+01         YZ=  0.28692463E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5478415E-05 Y= -0.4221028E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161989E+02         XY= -0.27394035E-04         XZ=  0.29773896E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32914506E-03 Y= -0.18661441E-10 Z=  0.32788013E-08   Total=     0.00032915
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12397938E+01         XY= -0.31099703E-02         XZ= -0.30864434E-02
                YY=  0.12460137E+01         YZ=  0.30827455E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3229676E-04 Y= -0.4240533E-09 Z=  0.5956969E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162257E+02         XY= -0.16148579E-03         XZ=  0.29638255E-01
                YY= -0.10161934E+02         YZ=  0.29784845E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23644649E-03 Y= -0.17729569E-10 Z=  0.37092429E-08   Total=     0.00023645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12415455E+01         XY= -0.22340957E-02         XZ= -0.23602447E-02
                YY=  0.12460137E+01         YZ=  0.34902097E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4716315E-04 Y= -0.4250647E-09 Z=  0.5956970E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162406E+02         XY= -0.23581775E-03         XZ=  0.29556631E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51724091E-04 Y= -0.13569426E-10 Z=  0.38061653E-08   Total=     0.00005172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12450363E+01         XY= -0.48872196E-03         XZ= -0.71850456E-03
                YY=  0.12460137E+01         YZ=  0.35852513E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4420460E-04 Y= -0.4259316E-09 Z=  0.5956970E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162376E+02         XY= -0.22102497E-03         XZ=  0.29561097E-01
                YY= -0.10161934E+02         YZ=  0.29784848E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15552217E-03 Y= -0.83622906E-11 Z=  0.34770491E-08   Total=     0.00015552
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12489527E+01         XY=  0.14694715E-02         XZ=  0.12225193E-02
                YY=  0.12460137E+01         YZ=  0.32786369E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2429825E-04 Y= -0.4261483E-09 Z=  0.5956970E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162177E+02         XY= -0.12149322E-03         XZ=  0.29651179E-01
                YY= -0.10161934E+02         YZ=  0.29784850E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30613766E-03 Y= -0.46501907E-11 Z=  0.32247283E-08   Total=     0.00030614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12517989E+01         XY=  0.28925817E-02         XZ=  0.27228507E-02
                YY=  0.12460137E+01         YZ=  0.30433492E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5166911E-05 Y= -0.4251369E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161883E+02         XY=  0.25832572E-04         XZ=  0.29793570E-01
                YY= -0.10161934E+02         YZ=  0.29784851E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34153447E-03 Y= -0.42084665E-11 Z=  0.34637316E-08   Total=     0.00034153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12524678E+01         XY=  0.32270331E-02         XZ=  0.32007974E-02
                YY=  0.12460137E+01         YZ=  0.32695676E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3302938E-04 Y= -0.4249202E-09 Z=  0.5956971E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161604E+02         XY=  0.16514491E-03         XZ=  0.29934425E-01
                YY= -0.10161934E+02         YZ=  0.29784852E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24646451E-03 Y= -0.72838821E-11 Z=  0.39262603E-08   Total=     0.00024646
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12506712E+01         XY=  0.23287521E-02         XZ=  0.24583362E-02
                YY=  0.12460137E+01         YZ=  0.37040390E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4858111E-04 Y= -0.4251369E-09 Z=  0.5956971E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161449E+02         XY=  0.24290356E-03         XZ=  0.30019718E-01
                YY= -0.10161934E+02         YZ=  0.29784854E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55499374E-04 Y= -0.12527439E-10 Z=  0.39944526E-08   Total=     0.00005550
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12470625E+01         XY=  0.52439297E-03         XZ=  0.76261263E-03
                YY=  0.12460137E+01         YZ=  0.37640838E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4568077E-04 Y= -0.4256426E-09 Z=  0.5956972E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161478E+02         XY=  0.22840184E-03         XZ=  0.30015950E-01
                YY= -0.10161934E+02         YZ=  0.29784856E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15950606E-03 Y= -0.17632992E-10 Z=  0.35322496E-08   Total=     0.00015951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12429995E+01         XY= -0.15071140E-02         XZ= -0.12497870E-02
                YY=  0.12460137E+01         YZ=  0.33230707E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2517502E-04 Y= -0.4268707E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161683E+02         XY=  0.12587307E-03         XZ=  0.29923295E-01
                YY= -0.10161934E+02         YZ=  0.29784857E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31643357E-03 Y= -0.20378049E-10 Z=  0.30801017E-08   Total=     0.00031643
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12400340E+01         XY= -0.29898642E-02         XZ= -0.28116454E-02
                YY=  0.12460137E+01         YZ=  0.28935177E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5325265E-05 Y= -0.4275931E-09 Z=  0.5956972E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161988E+02         XY= -0.26628337E-04         XZ=  0.29776015E-01
                YY= -0.10161934E+02         YZ=  0.29784858E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35425040E-03 Y= -0.19591734E-10 Z=  0.31276458E-08   Total=     0.00035425
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12393194E+01         XY= -0.33471814E-02         XZ= -0.33174752E-02
                YY=  0.12460138E+01         YZ=  0.29390591E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3426622E-04 Y= -0.4284600E-09 Z=  0.5956972E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162277E+02         XY= -0.17133313E-03         XZ=  0.29629812E-01
                YY= -0.10161934E+02         YZ=  0.29784859E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25672429E-03 Y= -0.15623229E-10 Z=  0.34517079E-08   Total=     0.00025672
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12411624E+01         XY= -0.24256931E-02         XZ= -0.25580620E-02
                YY=  0.12460138E+01         YZ=  0.32485506E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5052513E-04 Y= -0.4286767E-09 Z=  0.5956973E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162440E+02         XY= -0.25262765E-03         XZ=  0.29540775E-01
                YY= -0.10161934E+02         YZ=  0.29784861E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59297577E-04 Y= -0.10122040E-10 Z=  0.34369993E-08   Total=     0.00005930
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12448932E+01         XY= -0.56028100E-03         XZ= -0.80639783E-03
                YY=  0.12460138E+01         YZ=  0.32392575E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4768212E-04 Y= -0.4278821E-09 Z=  0.5956973E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162411E+02         XY= -0.23841260E-03         XZ=  0.29543878E-01
                YY= -0.10161934E+02         YZ=  0.29784862E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16375958E-03 Y= -0.52571348E-11 Z=  0.29462809E-08   Total=     0.00016376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12491084E+01         XY=  0.15473038E-02         XZ=  0.12800857E-02
                YY=  0.12460138E+01         YZ=  0.27796903E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2654986E-04 Y= -0.4273764E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162200E+02         XY= -0.13275134E-03         XZ=  0.29639268E-01
                YY= -0.10161934E+02         YZ=  0.29784863E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32727379E-03 Y= -0.27479316E-11 Z=  0.25283979E-08   Total=     0.00032727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12521983E+01         XY=  0.30922891E-02         XZ=  0.29061149E-02
                YY=  0.12460138E+01         YZ=  0.23869810E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5034021E-05 Y= -0.4272319E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161884E+02         XY=  0.25168079E-04         XZ=  0.29791711E-01
                YY= -0.10161934E+02         YZ=  0.29784864E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36767719E-03 Y= -0.31484258E-11 Z=  0.26511191E-08   Total=     0.00036768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12529618E+01         XY=  0.34740460E-02         XZ=  0.34415609E-02
                YY=  0.12460138E+01         YZ=  0.25026259E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3511151E-04 Y= -0.4283878E-09 Z=  0.5956973E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161583E+02         XY=  0.17555553E-03         XZ=  0.29943590E-01
                YY= -0.10161934E+02         YZ=  0.29784865E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26769786E-03 Y= -0.56906150E-11 Z=  0.30106310E-08   Total=     0.00026770
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12510725E+01         XY=  0.25293781E-02         XZ=  0.26654357E-02
                YY=  0.12460138E+01         YZ=  0.28401934E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5213040E-04 Y= -0.4285323E-09 Z=  0.5956974E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161413E+02         XY=  0.26064996E-03         XZ=  0.30036683E-01
                YY= -0.10161934E+02         YZ=  0.29784867E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63649737E-04 Y= -0.87250408E-11 Z=  0.29004875E-08   Total=     0.00006365
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12472166E+01         XY=  0.60140278E-03         XZ=  0.85649073E-03
                YY=  0.12460138E+01         YZ=  0.27335659E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4937976E-04 Y= -0.4278821E-09 Z=  0.5956974E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161441E+02         XY=  0.24689674E-03         XZ=  0.30034471E-01
                YY= -0.10161934E+02         YZ=  0.29784868E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16772322E-03 Y= -0.10523820E-10 Z=  0.21702498E-08   Total=     0.00016772
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12428442E+01         XY= -0.15847548E-02         XZ= -0.13065159E-02
                YY=  0.12460138E+01         YZ=  0.20420548E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2763249E-04 Y= -0.4284600E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161658E+02         XY=  0.13816040E-03         XZ=  0.29936452E-01
                YY= -0.10161934E+02         YZ=  0.29784868E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33809627E-03 Y= -0.10060932E-10 Z=  0.14591661E-08   Total=     0.00033810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12396247E+01         XY= -0.31945469E-02         XZ= -0.29993621E-02
                YY=  0.12460138E+01         YZ=  0.13705365E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5043938E-05 Y= -0.4289657E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161985E+02         XY= -0.25221736E-04         XZ=  0.29778847E-01
                YY= -0.10161934E+02         YZ=  0.29784869E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38126741E-03 Y= -0.74174561E-11 Z=  0.13563990E-08   Total=     0.00038127
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12388089E+01         XY= -0.36024551E-02         XZ= -0.35663166E-02
                YY=  0.12460138E+01         YZ=  0.12756352E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3627644E-04 Y= -0.4296881E-09 Z=  0.5956974E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162297E+02         XY= -0.18138424E-03         XZ=  0.29621235E-01
                YY= -0.10161934E+02         YZ=  0.29784870E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27885956E-03 Y= -0.36542768E-11 Z=  0.16227831E-08   Total=     0.00027886
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12407441E+01         XY= -0.26348411E-02         XZ= -0.27739587E-02
                YY=  0.12460138E+01         YZ=  0.15304901E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5406872E-04 Y= -0.4309162E-09 Z=  0.5956974E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162475E+02         XY= -0.27034565E-03         XZ=  0.29524045E-01
                YY= -0.10161934E+02         YZ=  0.29784870E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68050975E-04 Y= -0.24973891E-12 Z=  0.15516720E-08   Total=     0.00006805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12447278E+01         XY= -0.64298854E-03         XZ= -0.90667743E-03
                YY=  0.12460138E+01         YZ=  0.14661747E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5140592E-04 Y= -0.4304828E-09 Z=  0.5956975E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162448E+02         XY= -0.25703163E-03         XZ=  0.29525402E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17188684E-03 Y=  0.16053869E-11 Z=  0.98299918E-09   Total=     0.00017189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12492619E+01         XY=  0.16240953E-02         XZ=  0.13350091E-02
                YY=  0.12460138E+01         YZ=  0.93043923E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2901484E-04 Y= -0.4298326E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162225E+02         XY= -0.14507624E-03         XZ=  0.29626199E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34938355E-03 Y=  0.15175722E-11 Z=  0.55827987E-09   Total=     0.00034938
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12526161E+01         XY=  0.33011962E-02         XZ=  0.30971167E-02
                YY=  0.12460138E+01         YZ=  0.52908342E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4804674E-05 Y= -0.4306995E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161886E+02         XY=  0.24021320E-04         XZ=  0.29789226E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39550472E-03 Y= -0.16933917E-13 Z=  0.83077200E-09   Total=     0.00039550
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12534877E+01         XY=  0.37369780E-02         XZ=  0.36974111E-02
                YY=  0.12460138E+01         YZ=  0.78526531E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3725426E-04 Y= -0.4315664E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161562E+02         XY=  0.18626923E-03         XZ=  0.29952897E-01
                YY= -0.10161934E+02         YZ=  0.29784872E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29070458E-03 Y= -0.19446446E-11 Z=  0.14457510E-08   Total=     0.00029070
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12515073E+01         XY=  0.27467602E-02         XZ=  0.28893851E-02
                YY=  0.12460138E+01         YZ=  0.13646985E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5587979E-04 Y= -0.4311329E-09 Z=  0.5956975E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161376E+02         XY=  0.27939689E-03         XZ=  0.30054509E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.73022620E-04 Y= -0.32173846E-11 Z=  0.15548298E-08   Total=     0.00007302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12473937E+01         XY=  0.68996373E-03         XZ=  0.96293079E-03
                YY=  0.12460138E+01         YZ=  0.14666579E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5335083E-04 Y= -0.4311329E-09 Z=  0.5956975E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161401E+02         XY=  0.26675209E-03         XZ=  0.30054270E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17568241E-03 Y= -0.32933565E-11 Z=  0.94254017E-09   Total=     0.00017568
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12426938E+01         XY= -0.16599582E-02         XZ= -0.13592015E-02
                YY=  0.12460138E+01         YZ=  0.88802017E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3034347E-04 Y= -0.4311329E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161631E+02         XY=  0.15171528E-03         XZ=  0.29950868E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36049491E-03 Y= -0.23377012E-11 Z=  0.32901346E-09   Total=     0.00036049
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12392014E+01         XY= -0.34061833E-02         XZ= -0.31923601E-02
                YY=  0.12460138E+01         YZ=  0.30908241E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4605566E-05 Y= -0.4305550E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161980E+02         XY= -0.23029886E-04         XZ=  0.29782521E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40964789E-03 Y= -0.10480700E-11 Z=  0.40866899E-09   Total=     0.00040965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12382725E+01         XY= -0.38706116E-02         XZ= -0.38268540E-02
                YY=  0.12460138E+01         YZ=  0.38539849E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3826043E-04 Y= -0.4305550E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162317E+02         XY= -0.19130418E-03         XZ=  0.29612883E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30236728E-03 Y= -0.22326045E-12 Z=  0.92433413E-09   Total=     0.00030237
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12402998E+01         XY= -0.28569567E-02         XZ= -0.30025012E-02
                YY=  0.12460138E+01         YZ=  0.87330512E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5769396E-04 Y= -0.4308440E-09 Z=  0.5956975E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162511E+02         XY= -0.28847185E-03         XZ=  0.29506998E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.77560879E-04 Y= -0.31515028E-12 Z=  0.10514743E-08   Total=     0.00007756
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12445481E+01         XY= -0.73284410E-03         XZ= -0.10147202E-02
                YY=  0.12460137E+01         YZ=  0.99334481E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5524804E-04 Y= -0.4309885E-09 Z=  0.5956975E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162487E+02         XY= -0.27624227E-03         XZ=  0.29506387E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18025112E-03 Y= -0.11989628E-11 Z=  0.56763747E-09   Total=     0.00018025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12494200E+01         XY=  0.17031262E-02         XZ=  0.13908806E-02
                YY=  0.12460137E+01         YZ=  0.53542622E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3154412E-04 Y= -0.4312052E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162250E+02         XY= -0.15772264E-03         XZ=  0.29612801E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37269276E-03 Y= -0.22717862E-11 Z=  0.17663520E-09   Total=     0.00037269
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12530566E+01         XY=  0.35214363E-02         XZ=  0.32979797E-02
                YY=  0.12460137E+01         YZ=  0.16505195E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4637802E-05 Y= -0.4304105E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161888E+02         XY=  0.23186952E-04         XZ=  0.29786990E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42505196E-03 Y= -0.28140176E-11 Z=  0.50954717E-09   Total=     0.00042505
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12540461E+01         XY=  0.40161590E-02         XZ=  0.39684017E-02
                YY=  0.12460137E+01         YZ=  0.47910434E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3960956E-04 Y= -0.4291102E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161538E+02         XY=  0.19804573E-03         XZ=  0.29963166E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31526025E-03 Y= -0.24109246E-11 Z=  0.11805010E-08   Total=     0.00031526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12519713E+01         XY=  0.29787776E-02         XZ=  0.31276117E-02
                YY=  0.12460137E+01         YZ=  0.11133365E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5995289E-04 Y= -0.4289657E-09 Z=  0.5956975E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161335E+02         XY=  0.29976238E-03         XZ=  0.30073854E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83101268E-04 Y= -0.12032303E-11 Z=  0.12485644E-08   Total=     0.00008310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12475841E+01         XY=  0.78519318E-03         XZ=  0.10765136E-02
                YY=  0.12460137E+01         YZ=  0.11785862E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5766726E-04 Y= -0.4296159E-09 Z=  0.5956976E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161358E+02         XY=  0.28833426E-03         XZ=  0.30075727E-01
                YY= -0.10161934E+02         YZ=  0.29784876E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18416275E-03 Y=  0.17210951E-12 Z=  0.50446814E-09   Total=     0.00018416
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12425336E+01         XY= -0.17400858E-02         XZ= -0.14157581E-02
                YY=  0.12460137E+01         YZ=  0.47660005E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3331365E-04 Y= -0.4306272E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161601E+02         XY=  0.16656618E-03         XZ=  0.29966559E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38457065E-03 Y=  0.92469371E-12 Z= -0.18762536E-09   Total=     0.00038457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12387464E+01         XY= -0.36336661E-02         XZ= -0.34000619E-02
                YY=  0.12460137E+01         YZ= -0.17675953E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4079344E-05 Y= -0.4309885E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161975E+02         XY= -0.20398779E-04         XZ=  0.29786657E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44034231E-03 Y=  0.55896454E-12 Z= -0.13655680E-10   Total=     0.00044034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12376925E+01         XY= -0.41606319E-02         XZ= -0.41085545E-02
                YY=  0.12460137E+01         YZ= -0.12726859E-09         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4035665E-04 Y= -0.4308440E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162338E+02         XY= -0.20178531E-03         XZ=  0.29604009E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32803993E-03 Y= -0.81153328E-12 Z=  0.70276215E-09   Total=     0.00032804
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12398147E+01         XY= -0.30995281E-02         XZ= -0.32515981E-02
                YY=  0.12460137E+01         YZ=  0.66301814E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6159040E-04 Y= -0.4315664E-09 Z=  0.5956976E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162550E+02         XY= -0.30795406E-03         XZ=  0.29488614E-01
                YY= -0.10161934E+02         YZ=  0.29784876E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88324190E-04 Y= -0.24613106E-11 Z=  0.94519431E-09   Total=     0.00008832
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12443446E+01         XY= -0.83454267E-03         XZ= -0.11355340E-02
                YY=  0.12460137E+01         YZ=  0.89068437E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5942207E-04 Y= -0.4319276E-09 Z=  0.5956976E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162529E+02         XY= -0.29711243E-03         XZ=  0.29485680E-01
                YY= -0.10161934E+02         YZ=  0.29784876E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18872416E-03 Y= -0.33832939E-11 Z=  0.39317887E-09   Total=     0.00018872
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12495801E+01         XY=  0.17831848E-02         XZ=  0.14463470E-02
                YY=  0.12460137E+01         YZ=  0.36830995E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3434519E-04 Y= -0.4315664E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162278E+02         XY= -0.17172802E-03         XZ=  0.29597950E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39743643E-03 Y= -0.28004711E-11 Z= -0.15167023E-09   Total=     0.00039744
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12535242E+01         XY=  0.37552300E-02         XZ=  0.35110262E-02
                YY=  0.12460137E+01         YZ= -0.14604694E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4358974E-05 Y= -0.4317831E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161891E+02         XY=  0.21792807E-04         XZ=  0.29784049E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45684316E-03 Y= -0.60585176E-12 Z=  0.95233508E-10   Total=     0.00045684
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12546468E+01         XY=  0.43165423E-02         XZ=  0.42598824E-02
                YY=  0.12460137E+01         YZ=  0.89028241E-09         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4205518E-04 Y= -0.4316386E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161514E+02         XY=  0.21027385E-03         XZ=  0.29973730E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34206305E-03 Y=  0.25015601E-11 Z=  0.76708875E-09   Total=     0.00034206
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12524778E+01         XY=  0.32320274E-02         XZ=  0.33874033E-02
                YY=  0.12460137E+01         YZ=  0.72638008E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6428872E-04 Y= -0.4312052E-09 Z=  0.5956976E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161291E+02         XY=  0.32144152E-03         XZ=  0.30094387E-01
                YY= -0.10161934E+02         YZ=  0.29784876E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.94634354E-04 Y=  0.52771195E-11 Z=  0.81519692E-09   Total=     0.00009463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12478021E+01         XY=  0.89416511E-03         XZ=  0.12052288E-02
                YY=  0.12460137E+01         YZ=  0.77410254E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6232858E-04 Y= -0.4305550E-09 Z=  0.5956976E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161311E+02         XY=  0.31164086E-03         XZ=  0.30098855E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19247004E-03 Y=  0.64867879E-11 Z= -0.29069412E-10   Total=     0.00019247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12423766E+01         XY= -0.18185783E-02         XZ= -0.14686232E-02
                YY=  0.12460137E+01         YZ= -0.22640873E-09         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3659460E-04 Y= -0.4301216E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161568E+02         XY=  0.18297095E-03         XZ=  0.29983840E-01
                YY= -0.10161934E+02         YZ=  0.29784875E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40975724E-03 Y=  0.55055214E-11 Z= -0.82738069E-09   Total=     0.00040976
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12382704E+01         XY= -0.38716448E-02         XZ= -0.36162032E-02
                YY=  0.12460137E+01         YZ= -0.77777384E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3375100E-05 Y= -0.4296159E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161968E+02         XY= -0.16877555E-04         XZ=  0.29791794E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47295539E-03 Y=  0.26682124E-11 Z= -0.68430832E-09   Total=     0.00047296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12370762E+01         XY= -0.44687807E-02         XZ= -0.44070315E-02
                YY=  0.12460138E+01         YZ= -0.64496269E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4245241E-04 Y= -0.4291824E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162359E+02         XY= -0.21226411E-03         XZ=  0.29595285E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35567532E-03 Y= -0.81416748E-12 Z=  0.15335017E-10   Total=     0.00035568
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12392925E+01         XY= -0.33606448E-02         XZ= -0.35190740E-02
                YY=  0.12460138E+01         YZ=  0.13199667E-09         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6563991E-04 Y= -0.4295436E-09 Z=  0.5956975E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162591E+02         XY= -0.32820160E-03         XZ=  0.29469596E-01
                YY= -0.10161934E+02         YZ=  0.29784874E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10034305E-03 Y= -0.33612825E-11 Z=  0.11102331E-09   Total=     0.00010034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12441175E+01         XY= -0.94810448E-03         XZ= -0.12693039E-02
                YY=  0.12460138E+01         YZ=  0.10148330E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6382168E-04 Y= -0.4297604E-09 Z=  0.5956975E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162573E+02         XY= -0.31911047E-03         XZ=  0.29463913E-01
                YY= -0.10161934E+02         YZ=  0.29784873E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19709519E-03 Y= -0.37383288E-11 Z= -0.73635699E-09   Total=     0.00019710
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12497383E+01         XY=  0.18622797E-02         XZ=  0.14988680E-02
                YY=  0.12460138E+01         YZ= -0.69950491E-08         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3734015E-04 Y= -0.4290379E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162308E+02         XY= -0.18670282E-03         XZ=  0.29582104E-01
                YY= -0.10161934E+02         YZ=  0.29784872E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42320169E-03 Y= -0.16530455E-11 Z= -0.15490720E-08   Total=     0.00042320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12540111E+01         XY=  0.39986765E-02         XZ=  0.37315368E-02
                YY=  0.12460138E+01         YZ= -0.14656950E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4002804E-05 Y= -0.4282433E-09 Z=  0.5956975E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161894E+02         XY=  0.20011959E-04         XZ=  0.29780612E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49028964E-03 Y=  0.20522368E-11 Z= -0.13599121E-08   Total=     0.00049029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12552789E+01         XY=  0.46325657E-02         XZ=  0.45653509E-02
                YY=  0.12460138E+01         YZ= -0.12839021E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4457099E-04 Y= -0.4287490E-09 Z=  0.5956975E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161489E+02         XY=  0.22285287E-03         XZ=  0.29984483E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37040248E-03 Y=  0.57249942E-11 Z= -0.56090663E-09   Total=     0.00037040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12530134E+01         XY=  0.34997963E-02         XZ=  0.36611250E-02
                YY=  0.12460138E+01         YZ= -0.52590764E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6880637E-04 Y= -0.4291824E-09 Z=  0.5956975E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161246E+02         XY=  0.34402981E-03         XZ=  0.30115666E-01
                YY= -0.10161934E+02         YZ=  0.29784871E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10687228E-03 Y=  0.76183073E-11 Z= -0.39249372E-09   Total=     0.00010687
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12480334E+01         XY=  0.10097967E-02         XZ=  0.13411946E-02
                YY=  0.12460138E+01         YZ= -0.36520575E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6719440E-04 Y= -0.4282433E-09 Z=  0.5956974E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161262E+02         XY=  0.33596995E-03         XZ=  0.30122887E-01
                YY= -0.10161934E+02         YZ=  0.29784870E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20129031E-03 Y=  0.66857532E-11 Z= -0.12365445E-08   Total=     0.00020129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12422099E+01         XY= -0.19019177E-02         XZ= -0.15248956E-02
                YY=  0.12460138E+01         YZ= -0.11634834E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3999586E-04 Y= -0.4268707E-09 Z=  0.5956974E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161534E+02         XY=  0.19997727E-03         XZ=  0.30001673E-01
                YY= -0.10161934E+02         YZ=  0.29784869E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43657206E-03 Y=  0.30926233E-11 Z= -0.20653874E-08   Total=     0.00043657
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12377638E+01         XY= -0.41250082E-02         XZ= -0.38460841E-02
                YY=  0.12460138E+01         YZ= -0.19496015E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2716425E-05 Y= -0.4266540E-09 Z=  0.5956974E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161962E+02         XY= -0.13584174E-04         XZ=  0.29796720E-01
                YY= -0.10161934E+02         YZ=  0.29784867E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50774990E-03 Y= -0.18015179E-11 Z= -0.18491754E-08   Total=     0.00050775
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12364187E+01         XY= -0.47975413E-02         XZ= -0.47249678E-02
                YY=  0.12460138E+01         YZ= -0.17493713E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4478202E-04 Y= -0.4263650E-09 Z=  0.5956974E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162382E+02         XY= -0.22391215E-03         XZ=  0.29585443E-01
                YY= -0.10161934E+02         YZ=  0.29784866E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38523367E-03 Y= -0.60007915E-11 Z= -0.10093899E-08   Total=     0.00038523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12387339E+01         XY= -0.36399308E-02         XZ= -0.38045340E-02
                YY=  0.12460138E+01         YZ= -0.95937922E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7006299E-04 Y= -0.4260038E-09 Z=  0.5956974E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162635E+02         XY= -0.35031698E-03         XZ=  0.29448752E-01
                YY= -0.10161934E+02         YZ=  0.29784866E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11327579E-03 Y= -0.77356904E-11 Z= -0.88702311E-09   Total=     0.00011328
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12438732E+01         XY= -0.10703012E-02         XZ= -0.14125526E-02
                YY=  0.12460138E+01         YZ= -0.84520580E-08         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6863067E-04 Y= -0.4257871E-09 Z=  0.5956973E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162621E+02         XY= -0.34315541E-03         XZ=  0.29440092E-01
                YY= -0.10161934E+02         YZ=  0.29784865E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20595868E-03 Y= -0.62489972E-11 Z= -0.19094393E-08   Total=     0.00020596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12499058E+01         XY=  0.19460275E-02         XZ=  0.15545452E-02
                YY=  0.12460138E+01         YZ= -0.18100132E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4065838E-04 Y= -0.4252814E-09 Z=  0.5956973E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162341E+02         XY= -0.20329393E-03         XZ=  0.29564572E-01
                YY= -0.10161934E+02         YZ=  0.29784863E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45074867E-03 Y= -0.21485647E-11 Z= -0.29763155E-08   Total=     0.00045075
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12545317E+01         XY=  0.42589577E-02         XZ=  0.39673982E-02
                YY=  0.12460138E+01         YZ= -0.28146435E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3504396E-05 Y= -0.4239811E-09 Z=  0.5956973E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161899E+02         XY=  0.17519922E-04         XZ=  0.29776340E-01
                YY= -0.10161934E+02         YZ=  0.29784861E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52620897E-03 Y=  0.28407345E-11 Z= -0.29524277E-08   Total=     0.00052621
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12559577E+01         XY=  0.49719542E-02         XZ=  0.48933996E-02
                YY=  0.12460138E+01         YZ= -0.27878936E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4715775E-04 Y= -0.4228975E-09 Z=  0.5956972E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161463E+02         XY=  0.23578671E-03         XZ=  0.29995453E-01
                YY= -0.10161934E+02         YZ=  0.29784860E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40104275E-03 Y=  0.66249467E-11 Z= -0.22378929E-08   Total=     0.00040104
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12535924E+01         XY=  0.37893049E-02         XZ=  0.39569275E-02
                YY=  0.12460138E+01         YZ= -0.21095626E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7356486E-04 Y= -0.4226085E-09 Z=  0.5956972E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161199E+02         XY=  0.36782223E-03         XZ=  0.30138047E-01
                YY= -0.10161934E+02         YZ=  0.29784859E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12042836E-03 Y=  0.76600465E-11 Z= -0.22255187E-08   Total=     0.00012043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12482896E+01         XY=  0.11378832E-02         XZ=  0.14910675E-02
                YY=  0.12460138E+01         YZ= -0.20969549E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7236716E-04 Y= -0.4227530E-09 Z=  0.5956972E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161211E+02         XY=  0.36183376E-03         XZ=  0.30148426E-01
                YY= -0.10161934E+02         YZ=  0.29784857E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21023419E-03 Y=  0.56333820E-11 Z= -0.33516775E-08   Total=     0.00021023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12420410E+01         XY= -0.19864251E-02         XZ= -0.15802395E-02
                YY=  0.12460138E+01         YZ= -0.31626528E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4364348E-04 Y= -0.4228975E-09 Z=  0.5956971E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161498E+02         XY=  0.21821535E-03         XZ=  0.30020800E-01
                YY= -0.10161934E+02         YZ=  0.29784855E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46489231E-03 Y=  0.16021210E-11 Z= -0.44367126E-08   Total=     0.00046489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12372286E+01         XY= -0.43925958E-02         XZ= -0.40881993E-02
                YY=  0.12460138E+01         YZ= -0.41911725E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1975934E-05 Y= -0.4234032E-09 Z=  0.5956971E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161954E+02         XY= -0.98817129E-05         XZ=  0.29802188E-01
                YY= -0.10161934E+02         YZ=  0.29784853E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54487946E-03 Y= -0.24731057E-11 Z= -0.42840614E-08   Total=     0.00054488
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12357171E+01         XY= -0.51483648E-02         XZ= -0.50638352E-02
                YY=  0.12460138E+01         YZ= -0.40502954E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4723861E-04 Y= -0.4236921E-09 Z=  0.5956971E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162407E+02         XY= -0.23619509E-03         XZ=  0.29575123E-01
                YY= -0.10161934E+02         YZ=  0.29784851E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41712235E-03 Y= -0.45913944E-11 Z= -0.33709338E-08   Total=     0.00041712
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12381314E+01         XY= -0.39412351E-02         XZ= -0.41122011E-02
                YY=  0.12460139E+01         YZ= -0.31892498E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7479199E-04 Y= -0.4236199E-09 Z=  0.5956970E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162682E+02         XY= -0.37396198E-03         XZ=  0.29426503E-01
                YY= -0.10161934E+02         YZ=  0.29784849E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12773068E-03 Y= -0.35862570E-11 Z= -0.32631856E-08   Total=     0.00012773
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12436001E+01         XY= -0.12068800E-02         XZ= -0.15716828E-02
                YY=  0.12460138E+01         YZ= -0.30865733E-07         ZZ=  0.12460138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7383383E-04 Y= -0.4231864E-09 Z=  0.5956970E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162673E+02         XY= -0.36917121E-03         XZ=  0.29414343E-01
                YY= -0.10161934E+02         YZ=  0.29784847E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21458343E-03 Y=  0.37447170E-12 Z= -0.44917463E-08   Total=     0.00021458
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12500689E+01         XY=  0.20275195E-02         XZ=  0.16056455E-02
                YY=  0.12460138E+01         YZ= -0.42440511E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4434315E-04 Y= -0.4226808E-09 Z=  0.5956969E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162378E+02         XY= -0.22171782E-03         XZ=  0.29545146E-01
                YY= -0.10161934E+02         YZ=  0.29784844E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47931767E-03 Y=  0.58784775E-11 Z= -0.57980202E-08   Total=     0.00047932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12550716E+01         XY=  0.45288957E-02         XZ=  0.42105658E-02
                YY=  0.12460138E+01         YZ= -0.54736533E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2763738E-05 Y= -0.4223196E-09 Z=  0.5956969E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161907E+02         XY=  0.13816648E-04         XZ=  0.29770708E-01
                YY= -0.10161934E+02         YZ=  0.29784841E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56391137E-03 Y=  0.10897297E-10 Z= -0.58332239E-08   Total=     0.00056391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12566702E+01         XY=  0.53281903E-02         XZ=  0.52367216E-02
                YY=  0.12460139E+01         YZ= -0.55026553E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4966791E-04 Y= -0.4219584E-09 Z=  0.5956968E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161438E+02         XY=  0.24833752E-03         XZ=  0.30005846E-01
                YY= -0.10161934E+02         YZ=  0.29784839E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43345179E-03 Y=  0.13664759E-10 Z= -0.50106247E-08   Total=     0.00043345
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12542049E+01         XY=  0.40955260E-02         XZ=  0.42691683E-02
                YY=  0.12460139E+01         YZ= -0.47230174E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7838403E-04 Y= -0.4226085E-09 Z=  0.5956968E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161151E+02         XY=  0.39191812E-03         XZ=  0.30160549E-01
                YY= -0.10161934E+02         YZ=  0.29784837E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13499229E-03 Y=  0.13413995E-10 Z= -0.49404328E-08   Total=     0.00013499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12485648E+01         XY=  0.12754924E-02         XZ=  0.16515404E-02
                YY=  0.12460139E+01         YZ= -0.46568180E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7765270E-04 Y= -0.4228975E-09 Z=  0.5956967E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161158E+02         XY=  0.38826145E-03         XZ=  0.30174410E-01
                YY= -0.10161934E+02         YZ=  0.29784834E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21935835E-03 Y=  0.10656864E-10 Z= -0.61842998E-08   Total=     0.00021936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12418686E+01         XY= -0.20726359E-02         XZ= -0.16352909E-02
                YY=  0.12460138E+01         YZ= -0.58343251E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4734873E-04 Y= -0.4231142E-09 Z=  0.5956966E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161461E+02         XY=  0.23674161E-03         XZ=  0.30040185E-01
                YY= -0.10161934E+02         YZ=  0.29784830E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49452218E-03 Y=  0.69017109E-11 Z= -0.74298809E-08   Total=     0.00049452
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12366687E+01         XY= -0.46725574E-02         XZ= -0.43405215E-02
                YY=  0.12460139E+01         YZ= -0.70143005E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1318651E-05 Y= -0.4221028E-09 Z=  0.5956966E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161948E+02         XY= -0.65952799E-05         XZ=  0.29807294E-01
                YY= -0.10161934E+02         YZ=  0.29784827E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58392397E-03 Y=  0.39574645E-11 Z= -0.72803693E-08   Total=     0.00058392
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12349793E+01         XY= -0.55172819E-02         XZ= -0.54192366E-02
                YY=  0.12460139E+01         YZ= -0.68754450E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4994802E-04 Y= -0.4212359E-09 Z=  0.5956965E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162434E+02         XY= -0.24974210E-03         XZ=  0.29563641E-01
                YY= -0.10161934E+02         YZ=  0.29784824E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45074254E-03 Y=  0.31464641E-11 Z= -0.62255442E-08   Total=     0.00045074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12374960E+01         XY= -0.42588997E-02         XZ= -0.44357966E-02
                YY=  0.12460139E+01         YZ= -0.58794237E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7990168E-04 Y= -0.4213804E-09 Z=  0.5956965E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162733E+02         XY= -0.39951040E-03         XZ=  0.29402450E-01
                YY= -0.10161934E+02         YZ=  0.29784821E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14298470E-03 Y=  0.47721091E-11 Z= -0.60343952E-08   Total=     0.00014298
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12433118E+01         XY= -0.13510096E-02         XZ= -0.17391334E-02
                YY=  0.12460139E+01         YZ= -0.56974288E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7944705E-04 Y= -0.4206580E-09 Z=  0.5956964E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162729E+02         XY= -0.39723728E-03         XZ=  0.29386595E-01
                YY= -0.10161934E+02         YZ=  0.29784818E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22375702E-03 Y=  0.80559373E-11 Z= -0.73358393E-08   Total=     0.00022376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12502422E+01         XY=  0.21141975E-02         XZ=  0.16603485E-02
                YY=  0.12460138E+01         YZ= -0.69243413E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4834831E-04 Y= -0.4202246E-09 Z=  0.5956963E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162418E+02         XY= -0.24174355E-03         XZ=  0.29524098E-01
                YY= -0.10161934E+02         YZ=  0.29784814E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50969490E-03 Y=  0.11540795E-10 Z= -0.87129727E-08   Total=     0.00050969
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12556457E+01         XY=  0.48159190E-02         XZ=  0.44691116E-02
                YY=  0.12460139E+01         YZ= -0.82225915E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1886780E-05 Y= -0.4193577E-09 Z=  0.5956962E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161916E+02         XY=  0.94318888E-05         XZ=  0.29764309E-01
                YY= -0.10161934E+02         YZ=  0.29784810E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60410645E-03 Y=  0.13753130E-10 Z= -0.86208454E-08   Total=     0.00060411
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12574298E+01         XY=  0.57079788E-02         XZ=  0.56024839E-02
                YY=  0.12460139E+01         YZ= -0.81336442E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5225839E-04 Y= -0.4174072E-09 Z=  0.5956962E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161412E+02         XY=  0.26128995E-03         XZ=  0.30016527E-01
                YY= -0.10161934E+02         YZ=  0.29784806E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46817952E-03 Y=  0.13820308E-10 Z= -0.75313115E-08   Total=     0.00046818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12548612E+01         XY=  0.44236555E-02         XZ=  0.46032665E-02
                YY=  0.12460139E+01         YZ= -0.71040714E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8345599E-04 Y= -0.4163958E-09 Z=  0.5956961E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161100E+02         XY=  0.41727796E-03         XZ=  0.30184220E-01
                YY= -0.10161934E+02         YZ=  0.29784803E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15087310E-03 Y=  0.11781505E-10 Z= -0.73164796E-08   Total=     0.00015087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12488649E+01         XY=  0.14255443E-02         XZ=  0.18254981E-02
                YY=  0.12460139E+01         YZ= -0.69027365E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8325620E-04 Y= -0.4166125E-09 Z=  0.5956960E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161102E+02         XY=  0.41627901E-03         XZ=  0.30201947E-01
                YY= -0.10161934E+02         YZ=  0.29784800E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22865515E-03 Y=  0.84867846E-11 Z= -0.86551909E-08   Total=     0.00022866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12416929E+01         XY= -0.21604780E-02         XZ= -0.16902530E-02
                YY=  0.12460138E+01         YZ= -0.81703528E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5130423E-04 Y= -0.4168293E-09 Z=  0.5956959E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161421E+02         XY=  0.25651915E-03         XZ=  0.30060863E-01
                YY= -0.10161934E+02         YZ=  0.29784795E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52577281E-03 Y=  0.51673844E-11 Z= -0.10032832E-07   Total=     0.00052577
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12360782E+01         XY= -0.49678330E-02         XZ= -0.46064611E-02
                YY=  0.12460138E+01         YZ= -0.94747960E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5894507E-06 Y= -0.4176239E-09 Z=  0.5956958E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161940E+02         XY= -0.29492468E-05         XZ=  0.29812862E-01
                YY= -0.10161934E+02         YZ=  0.29784790E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62547112E-03 Y=  0.28951935E-11 Z= -0.97817383E-08   Total=     0.00062547
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12341941E+01         XY= -0.59098455E-02         XZ= -0.57973296E-02
                YY=  0.12460139E+01         YZ= -0.92394542E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5281156E-04 Y= -0.4187075E-09 Z=  0.5956958E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162462E+02         XY= -0.26405978E-03         XZ=  0.29551514E-01
                YY= -0.10161934E+02         YZ=  0.29784786E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48685540E-03 Y=  0.21746025E-11 Z= -0.84019247E-08   Total=     0.00048686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12368136E+01         XY= -0.46001168E-02         XZ= -0.47831835E-02
                YY=  0.12460139E+01         YZ= -0.79363435E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8535829E-04 Y= -0.4187075E-09 Z=  0.5956957E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162788E+02         XY= -0.42679346E-03         XZ=  0.29376756E-01
                YY= -0.10161934E+02         YZ=  0.29784783E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15982704E-03 Y=  0.28249870E-11 Z= -0.79291400E-08   Total=     0.00015983
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12429935E+01         XY= -0.15101466E-02         XZ= -0.19230288E-02
                YY=  0.12460138E+01         YZ= -0.74891053E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8549732E-04 Y= -0.4174072E-09 Z=  0.5956956E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162789E+02         XY= -0.42748858E-03         XZ=  0.29356680E-01
                YY= -0.10161934E+02         YZ=  0.29784779E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23281509E-03 Y=  0.41648413E-11 Z= -0.91471230E-08   Total=     0.00023282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12504134E+01         XY=  0.21997838E-02         XZ=  0.17117826E-02
                YY=  0.12460138E+01         YZ= -0.86388216E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5274578E-04 Y= -0.4173349E-09 Z=  0.5956955E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162462E+02         XY= -0.26373089E-03         XZ=  0.29501014E-01
                YY= -0.10161934E+02         YZ=  0.29784774E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54146033E-03 Y=  0.53759325E-11 Z= -0.10472262E-07   Total=     0.00054146
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12562459E+01         XY=  0.51160588E-02         XZ=  0.47386182E-02
                YY=  0.12460138E+01         YZ= -0.98898731E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7798208E-06 Y= -0.4175517E-09 Z=  0.5956954E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161927E+02         XY=  0.38971182E-05         XZ=  0.29756608E-01
                YY= -0.10161934E+02         YZ=  0.29784770E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64667322E-03 Y=  0.58615164E-11 Z= -0.10109308E-07   Total=     0.00064667
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12582342E+01         XY=  0.61101764E-02         XZ=  0.59893077E-02
                YY=  0.12460138E+01         YZ= -0.95464982E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5483833E-04 Y= -0.4173349E-09 Z=  0.5956954E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161386E+02         XY=  0.27418965E-03         XZ=  0.30026967E-01
                YY= -0.10161934E+02         YZ=  0.29784766E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50538281E-03 Y=  0.54436780E-11 Z= -0.85537496E-08   Total=     0.00050538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12555642E+01         XY=  0.47751756E-02         XZ=  0.49607344E-02
                YY=  0.12460138E+01         YZ= -0.80770262E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8871278E-04 Y= -0.4167570E-09 Z=  0.5956953E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161047E+02         XY=  0.44356193E-03         XZ=  0.30208650E-01
                YY= -0.10161934E+02         YZ=  0.29784762E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16842246E-03 Y=  0.43413465E-11 Z= -0.79547802E-08   Total=     0.00016842
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12491965E+01         XY=  0.15913616E-02         XZ=  0.20165806E-02
                YY=  0.12460138E+01         YZ= -0.75119823E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8914428E-04 Y= -0.4159624E-09 Z=  0.5956952E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161043E+02         XY=  0.44571941E-03         XZ=  0.30230820E-01
                YY= -0.10161934E+02         YZ=  0.29784758E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23769002E-03 Y=  0.29822877E-11 Z= -0.91467029E-08   Total=     0.00023769
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12415221E+01         XY= -0.22458451E-02         XZ= -0.17404411E-02
                YY=  0.12460138E+01         YZ= -0.86393228E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5551357E-04 Y= -0.4154567E-09 Z=  0.5956951E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161379E+02         XY=  0.27756588E-03         XZ=  0.30082824E-01
                YY= -0.10161934E+02         YZ=  0.29784753E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55822891E-03 Y=  0.17707437E-11 Z= -0.10439369E-07   Total=     0.00055823
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12354648E+01         XY= -0.52744988E-02         XZ= -0.48813313E-02
                YY=  0.12460138E+01         YZ= -0.98617515E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2475998E-06 Y= -0.4158179E-09 Z=  0.5956950E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161932E+02         XY=  0.12360204E-05         XZ=  0.29819079E-01
                YY= -0.10161934E+02         YZ=  0.29784749E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66918844E-03 Y=  0.93254094E-12 Z= -0.99120902E-08   Total=     0.00066919
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12333680E+01         XY= -0.63229144E-02         XZ= -0.61941456E-02
                YY=  0.12460138E+01         YZ= -0.93642830E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5576888E-04 Y= -0.4162513E-09 Z=  0.5956949E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162492E+02         XY= -0.27884639E-03         XZ=  0.29539080E-01
                YY= -0.10161934E+02         YZ=  0.29784745E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52522719E-03 Y=  0.49629190E-12 Z= -0.81023749E-08   Total=     0.00052523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12360884E+01         XY= -0.49626778E-02         XZ= -0.51514005E-02
                YY=  0.12460138E+01         YZ= -0.76547476E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9108462E-04 Y= -0.4161791E-09 Z=  0.5956949E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162845E+02         XY= -0.45542509E-03         XZ=  0.29349871E-01
                YY= -0.10161934E+02         YZ=  0.29784741E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17810349E-03 Y=  0.38592271E-12 Z= -0.73368507E-08   Total=     0.00017810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12426481E+01         XY= -0.16828341E-02         XZ= -0.21213584E-02
                YY=  0.12460138E+01         YZ= -0.69315378E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9189570E-04 Y= -0.4159624E-09 Z=  0.5956948E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162853E+02         XY= -0.45948047E-03         XZ=  0.29325124E-01
                YY= -0.10161934E+02         YZ=  0.29784738E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24186074E-03 Y=  0.54010699E-12 Z= -0.85387060E-08   Total=     0.00024186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12505843E+01         XY=  0.22852529E-02         XZ=  0.17611981E-02
                YY=  0.12460138E+01         YZ= -0.80669848E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5743801E-04 Y= -0.4160346E-09 Z=  0.5956947E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162509E+02         XY= -0.28719201E-03         XZ=  0.29476464E-01
                YY= -0.10161934E+02         YZ=  0.29784733E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57467824E-03 Y=  0.96994133E-12 Z= -0.99005411E-08   Total=     0.00057468
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12568736E+01         XY=  0.54299224E-02         XZ=  0.50196771E-02
                YY=  0.12460138E+01         YZ= -0.93533377E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4539599E-06 Y= -0.4155289E-09 Z=  0.5956946E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161939E+02         XY= -0.22717763E-05         XZ=  0.29748193E-01
                YY= -0.10161934E+02         YZ=  0.29784728E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69162028E-03 Y=  0.17155239E-11 Z= -0.93332752E-08   Total=     0.00069162
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12590835E+01         XY=  0.65348646E-02         XZ=  0.63970161E-02
                YY=  0.12460138E+01         YZ= -0.88166830E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5751109E-04 Y= -0.4150955E-09 Z=  0.5956945E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161359E+02         XY=  0.28755346E-03         XZ=  0.30037742E-01
                YY= -0.10161934E+02         YZ=  0.29784725E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54497499E-03 Y=  0.27352632E-11 Z= -0.73800302E-08   Total=     0.00054497
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12563123E+01         XY=  0.51492674E-02         XZ=  0.53403456E-02
                YY=  0.12460138E+01         YZ= -0.69702479E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9424884E-04 Y= -0.4148065E-09 Z=  0.5956945E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160992E+02         XY=  0.47124223E-03         XZ=  0.30234353E-01
                YY= -0.10161934E+02         YZ=  0.29784722E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18741811E-03 Y=  0.38124004E-11 Z= -0.65375848E-08   Total=     0.00018742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12495554E+01         XY=  0.17708445E-02         XZ=  0.22222336E-02
                YY=  0.12460138E+01         YZ= -0.61733395E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9539044E-04 Y= -0.4140119E-09 Z=  0.5956944E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160980E+02         XY=  0.47695024E-03         XZ=  0.30261416E-01
                YY= -0.10161934E+02         YZ=  0.29784719E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24683454E-03 Y=  0.45641585E-11 Z= -0.78281534E-08   Total=     0.00024683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12413492E+01         XY= -0.23322483E-02         XZ= -0.17897861E-02
                YY=  0.12460138E+01         YZ= -0.73921325E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6001743E-04 Y= -0.4127838E-09 Z=  0.5956943E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161334E+02         XY=  0.30008516E-03         XZ=  0.30106277E-01
                YY= -0.10161934E+02         YZ=  0.29784714E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59237917E-03 Y=  0.45821447E-11 Z= -0.93266396E-08   Total=     0.00059238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12348194E+01         XY= -0.55971719E-02         XZ= -0.51700965E-02
                YY=  0.12460138E+01         YZ= -0.88080056E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1192435E-05 Y= -0.4126393E-09 Z=  0.5956942E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161922E+02         XY=  0.59602045E-05         XZ=  0.29825935E-01
                YY= -0.10161934E+02         YZ=  0.29784710E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71560197E-03 Y=  0.36522102E-11 Z= -0.87505253E-08   Total=     0.00071560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12324908E+01         XY= -0.67614587E-02         XZ= -0.66149325E-02
                YY=  0.12460138E+01         YZ= -0.82644558E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5886117E-04 Y= -0.4124948E-09 Z=  0.5956942E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162523E+02         XY= -0.29430782E-03         XZ=  0.29526114E-01
                YY= -0.10161934E+02         YZ=  0.29784706E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56631264E-03 Y=  0.19389132E-11 Z= -0.66103448E-08   Total=     0.00056631
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12353120E+01         XY= -0.53508790E-02         XZ= -0.55449805E-02
                YY=  0.12460138E+01         YZ= -0.62437177E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9715438E-04 Y= -0.4135784E-09 Z=  0.5956941E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162906E+02         XY= -0.48577388E-03         XZ=  0.29321398E-01
                YY= -0.10161934E+02         YZ=  0.29784704E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19809223E-03 Y=  0.15092694E-13 Z= -0.55472003E-08   Total=     0.00019809
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12422703E+01         XY= -0.18717003E-02         XZ= -0.23369708E-02
                YY=  0.12460138E+01         YZ= -0.52407868E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9873230E-04 Y= -0.4149510E-09 Z=  0.5956941E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162922E+02         XY= -0.49366346E-03         XZ=  0.29291438E-01
                YY= -0.10161934E+02         YZ=  0.29784701E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25086035E-03 Y= -0.13187663E-11 Z= -0.66934590E-08   Total=     0.00025086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12507543E+01         XY=  0.23702868E-02         XZ=  0.18080733E-02
                YY=  0.12460137E+01         YZ= -0.63249308E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6251151E-04 Y= -0.4148065E-09 Z=  0.5956940E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162559E+02         XY= -0.31255953E-03         XZ=  0.29449972E-01
                YY= -0.10161934E+02         YZ=  0.29784697E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60956765E-03 Y= -0.13743031E-11 Z= -0.80696239E-08   Total=     0.00060957
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12575329E+01         XY=  0.57595796E-02         XZ=  0.53142051E-02
                YY=  0.12460138E+01         YZ= -0.76252330E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1878796E-05 Y= -0.4139396E-09 Z=  0.5956939E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161953E+02         XY= -0.93959531E-05         XZ=  0.29738697E-01
                YY= -0.10161934E+02         YZ=  0.29784693E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.73936517E-03 Y=  0.71288239E-13 Z= -0.73110533E-08   Total=     0.00073937
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12599857E+01         XY=  0.69859884E-02         XZ=  0.68295093E-02
                YY=  0.12460138E+01         YZ= -0.69072574E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6024765E-04 Y= -0.4130727E-09 Z=  0.5956938E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161332E+02         XY=  0.30123627E-03         XZ=  0.30048662E-01
                YY= -0.10161934E+02         YZ=  0.29784690E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58747371E-03 Y=  0.25869558E-11 Z= -0.50178426E-08   Total=     0.00058747
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12571154E+01         XY=  0.55508221E-02         XZ=  0.57471046E-02
                YY=  0.12460138E+01         YZ= -0.47383814E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1000749E-03 Y= -0.4117724E-09 Z=  0.5956938E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160934E+02         XY=  0.50037233E-03         XZ=  0.30261346E-01
                YY= -0.10161934E+02         YZ=  0.29784688E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20836689E-03 Y=  0.51863582E-11 Z= -0.40411679E-08   Total=     0.00020837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12499513E+01         XY=  0.19687818E-02         XZ=  0.24475331E-02
                YY=  0.12460137E+01         YZ= -0.38134009E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1020413E-03 Y= -0.4109055E-09 Z=  0.5956938E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160914E+02         XY=  0.51020436E-03         XZ=  0.30293949E-01
                YY= -0.10161934E+02         YZ=  0.29784686E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25568275E-03 Y=  0.67095306E-11 Z= -0.55727607E-08   Total=     0.00025568
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12411820E+01         XY= -0.24158518E-02         XZ= -0.18340321E-02
                YY=  0.12460137E+01         YZ= -0.52593013E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6488855E-04 Y= -0.4102553E-09 Z=  0.5956937E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161285E+02         XY=  0.32444077E-03         XZ=  0.30131588E-01
                YY= -0.10161934E+02         YZ=  0.29784682E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62796473E-03 Y=  0.63409552E-11 Z= -0.74100890E-08   Total=     0.00062796
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12341469E+01         XY= -0.59334067E-02         XZ= -0.54698495E-02
                YY=  0.12460137E+01         YZ= -0.69956625E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2332271E-05 Y= -0.4092440E-09 Z=  0.5956936E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161911E+02         XY=  0.11659393E-04         XZ=  0.29833889E-01
                YY= -0.10161934E+02         YZ=  0.29784678E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.76459709E-03 Y=  0.40321413E-11 Z= -0.68949372E-08   Total=     0.00076460
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12315649E+01         XY= -0.72243955E-02         XZ= -0.70582232E-02
                YY=  0.12460138E+01         YZ= -0.65108647E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6199688E-04 Y= -0.4090273E-09 Z=  0.5956935E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162554E+02         XY= -0.30998636E-03         XZ=  0.29513113E-01
                YY= -0.10161934E+02         YZ=  0.29784675E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61010216E-03 Y=  0.61540529E-12 Z= -0.45715041E-08   Total=     0.00061010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12344845E+01         XY= -0.57646299E-02         XZ= -0.59636304E-02
                YY=  0.12460138E+01         YZ= -0.43184004E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1034781E-03 Y= -0.4094607E-09 Z=  0.5956935E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162969E+02         XY= -0.51739231E-03         XZ=  0.29291829E-01
                YY= -0.10161934E+02         YZ=  0.29784674E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21983695E-03 Y= -0.24792146E-11 Z= -0.34930180E-08   Total=     0.00021984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12418594E+01         XY= -0.20771582E-02         XZ= -0.25703114E-02
                YY=  0.12460137E+01         YZ= -0.33019575E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1059221E-03 Y= -0.4098219E-09 Z=  0.5956935E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162994E+02         XY= -0.52961234E-03         XZ=  0.29256087E-01
                YY= -0.10161934E+02         YZ=  0.29784671E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25975669E-03 Y= -0.38119419E-11 Z= -0.50329750E-08   Total=     0.00025976
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12509224E+01         XY=  0.24543450E-02         XZ=  0.18516201E-02
                YY=  0.12460137E+01         YZ= -0.47581042E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6788575E-04 Y= -0.4101109E-09 Z=  0.5956934E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162613E+02         XY= -0.33943072E-03         XZ=  0.29421967E-01
                YY= -0.10161934E+02         YZ=  0.29784668E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64607098E-03 Y= -0.25801394E-11 Z= -0.69483437E-08   Total=     0.00064607
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12582227E+01         XY=  0.61044861E-02         XZ=  0.56212811E-02
                YY=  0.12460137E+01         YZ= -0.65668203E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3418540E-05 Y= -0.4098219E-09 Z=  0.5956933E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161969E+02         XY= -0.17094664E-04         XZ=  0.29728512E-01
                YY= -0.10161934E+02         YZ=  0.29784664E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78983682E-03 Y=  0.97137682E-12 Z= -0.64436480E-08   Total=     0.00078984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12609395E+01         XY=  0.74628764E-02         XZ=  0.72857301E-02
                YY=  0.12460138E+01         YZ= -0.60869745E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6311820E-04 Y= -0.4087383E-09 Z=  0.5956933E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161303E+02         XY=  0.31558904E-03         XZ=  0.30060074E-01
                YY= -0.10161934E+02         YZ=  0.29784662E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63276892E-03 Y=  0.55851272E-11 Z= -0.40744308E-08   Total=     0.00063277
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12579713E+01         XY=  0.59787999E-02         XZ=  0.61796910E-02
                YY=  0.12460138E+01         YZ= -0.38445333E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1062514E-03 Y= -0.4084493E-09 Z=  0.5956932E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160872E+02         XY=  0.53125522E-03         XZ=  0.30289918E-01
                YY= -0.10161934E+02         YZ=  0.29784660E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23110220E-03 Y=  0.94862577E-11 Z= -0.30527944E-08   Total=     0.00023110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12503809E+01         XY=  0.21835994E-02         XZ=  0.26907963E-02
                YY=  0.12460137E+01         YZ= -0.28759747E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1091432E-03 Y= -0.4068600E-09 Z=  0.5956932E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160843E+02         XY=  0.54571427E-03         XZ=  0.30328635E-01
                YY= -0.10161934E+02         YZ=  0.29784658E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26445114E-03 Y=  0.11142313E-10 Z= -0.48059017E-08   Total=     0.00026445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12410163E+01         XY= -0.24987010E-02         XZ= -0.18751585E-02
                YY=  0.12460137E+01         YZ= -0.45310473E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7015612E-04 Y= -0.4057042E-09 Z=  0.5956931E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161233E+02         XY=  0.35077866E-03         XZ=  0.30158889E-01
                YY= -0.10161934E+02         YZ=  0.29784654E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66521647E-03 Y=  0.99552244E-11 Z= -0.69044088E-08   Total=     0.00066522
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12334429E+01         XY= -0.62853846E-02         XZ= -0.57825874E-02
                YY=  0.12460137E+01         YZ= -0.65148465E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3679191E-05 Y= -0.4051263E-09 Z=  0.5956930E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161898E+02         XY=  0.18394006E-04         XZ=  0.29842994E-01
                YY= -0.10161934E+02         YZ=  0.29784651E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.81636478E-03 Y=  0.65670800E-11 Z= -0.63336068E-08   Total=     0.00081636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12305867E+01         XY= -0.77135293E-02         XZ= -0.75256048E-02
                YY=  0.12460138E+01         YZ= -0.59783416E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6517643E-04 Y= -0.4048373E-09 Z=  0.5956930E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162586E+02         XY= -0.32588408E-03         XZ=  0.29500073E-01
                YY= -0.10161934E+02         YZ=  0.29784648E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65669412E-03 Y=  0.26220733E-11 Z= -0.36909079E-08   Total=     0.00065669
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12336040E+01         XY= -0.62048602E-02         XZ= -0.64081086E-02
                YY=  0.12460138E+01         YZ= -0.34846296E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1100603E-03 Y= -0.4048373E-09 Z=  0.5956930E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163035E+02         XY= -0.55030364E-03         XZ=  0.29261144E-01
                YY= -0.10161934E+02         YZ=  0.29784647E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24331449E-03 Y=  0.69801714E-13 Z= -0.24710240E-08   Total=     0.00024331
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12414157E+01         XY= -0.22989887E-02         XZ= -0.28210786E-02
                YY=  0.12460138E+01         YZ= -0.23341084E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1134643E-03 Y= -0.4051985E-09 Z=  0.5956929E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163069E+02         XY= -0.56732348E-03         XZ=  0.29219079E-01
                YY= -0.10161934E+02         YZ=  0.29784645E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26868598E-03 Y=  0.30752469E-12 Z= -0.42966177E-08   Total=     0.00026869
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12510911E+01         XY=  0.25387146E-02         XZ=  0.18931224E-02
                YY=  0.12460137E+01         YZ= -0.40588116E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7354670E-04 Y= -0.4064266E-09 Z=  0.5956929E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162670E+02         XY= -0.36773546E-03         XZ=  0.29392523E-01
                YY= -0.10161934E+02         YZ=  0.29784641E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68439193E-03 Y=  0.35431421E-11 Z= -0.66348592E-08   Total=     0.00068439
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12589469E+01         XY=  0.64665666E-02         XZ=  0.59427802E-02
                YY=  0.12460138E+01         YZ= -0.62653968E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5042247E-05 Y= -0.4070045E-09 Z=  0.5956928E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161985E+02         XY= -0.25213175E-04         XZ=  0.29717790E-01
                YY= -0.10161934E+02         YZ=  0.29784638E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84323858E-03 Y=  0.86714743E-11 Z= -0.62448500E-08   Total=     0.00084324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12619486E+01         XY=  0.79674500E-02         XZ=  0.77675547E-02
                YY=  0.12460138E+01         YZ= -0.58925885E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6616876E-04 Y= -0.4059931E-09 Z=  0.5956927E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161273E+02         XY=  0.33084186E-03         XZ=  0.30072205E-01
                YY= -0.10161934E+02         YZ=  0.29784635E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68099689E-03 Y=  0.13730919E-10 Z= -0.36880125E-08   Total=     0.00068100
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12588827E+01         XY=  0.64344883E-02         XZ=  0.66393859E-02
                YY=  0.12460138E+01         YZ= -0.34724945E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1128330E-03 Y= -0.4039704E-09 Z=  0.5956927E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160806E+02         XY=  0.56416314E-03         XZ=  0.30320339E-01
                YY= -0.10161934E+02         YZ=  0.29784634E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25564980E-03 Y=  0.16746276E-10 Z= -0.26295199E-08   Total=     0.00025565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12508448E+01         XY=  0.24155407E-02         XZ=  0.29523019E-02
                YY=  0.12460138E+01         YZ= -0.24698470E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1167500E-03 Y= -0.4028868E-09 Z=  0.5956927E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160767E+02         XY=  0.58374813E-03         XZ=  0.30365743E-01
                YY= -0.10161934E+02         YZ=  0.29784632E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27323127E-03 Y=  0.16586983E-10 Z= -0.47710964E-08   Total=     0.00027323
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12408504E+01         XY= -0.25816612E-02         XZ= -0.19139833E-02
                YY=  0.12460138E+01         YZ= -0.44934788E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7586408E-04 Y= -0.4025256E-09 Z=  0.5956926E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161176E+02         XY=  0.37931851E-03         XZ=  0.30188403E-01
                YY= -0.10161934E+02         YZ=  0.29784628E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70431373E-03 Y=  0.13458066E-10 Z= -0.73832040E-08   Total=     0.00070431
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12327041E+01         XY= -0.66548002E-02         XZ= -0.61099906E-02
                YY=  0.12460138E+01         YZ= -0.69641729E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5261524E-05 Y= -0.4023811E-09 Z=  0.5956925E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161882E+02         XY=  0.26305707E-04         XZ=  0.29853398E-01
                YY= -0.10161934E+02         YZ=  0.29784624E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87111817E-03 Y=  0.88048418E-11 Z= -0.69628573E-08   Total=     0.00087112
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12295520E+01         XY= -0.82308738E-02         XZ= -0.80191477E-02
                YY=  0.12460138E+01         YZ= -0.65708767E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6838846E-04 Y= -0.4022366E-09 Z=  0.5956925E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162618E+02         XY= -0.34194419E-03         XZ=  0.29487055E-01
                YY= -0.10161934E+02         YZ=  0.29784621E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70627515E-03 Y=  0.46737412E-11 Z= -0.40825738E-08   Total=     0.00070628
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12326671E+01         XY= -0.66733330E-02         XZ= -0.68803145E-02
                YY=  0.12460138E+01         YZ= -0.38528355E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1169035E-03 Y= -0.4013697E-09 Z=  0.5956924E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163103E+02         XY= -0.58451954E-03         XZ=  0.29229330E-01
                YY= -0.10161934E+02         YZ=  0.29784620E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26863562E-03 Y=  0.28157837E-11 Z= -0.26967318E-08   Total=     0.00026864
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12409373E+01         XY= -0.25382388E-02         XZ= -0.30905078E-02
                YY=  0.12460138E+01         YZ= -0.25449417E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1213682E-03 Y= -0.4007918E-09 Z=  0.5956924E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163148E+02         XY= -0.60684304E-03         XZ=  0.29180362E-01
                YY= -0.10161934E+02         YZ=  0.29784618E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27764005E-03 Y=  0.39307416E-11 Z= -0.47245524E-08   Total=     0.00027764
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12512604E+01         XY=  0.26233183E-02         XZ=  0.19323195E-02
                YY=  0.12460138E+01         YZ= -0.44600203E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7950214E-04 Y= -0.4020921E-09 Z=  0.5956923E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162729E+02         XY= -0.39751258E-03         XZ=  0.29361588E-01
                YY= -0.10161934E+02         YZ=  0.29784614E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72462561E-03 Y=  0.73842939E-11 Z= -0.73388800E-08   Total=     0.00072463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12597072E+01         XY=  0.68467198E-02         XZ=  0.62794889E-02
                YY=  0.12460138E+01         YZ= -0.69273313E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6748441E-05 Y= -0.4035370E-09 Z=  0.5956922E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162002E+02         XY= -0.33744107E-04         XZ=  0.29706529E-01
                YY= -0.10161934E+02         YZ=  0.29784610E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89974609E-03 Y=  0.11514342E-10 Z= -0.68060347E-08   Total=     0.00089975
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12630165E+01         XY=  0.85013686E-02         XZ=  0.82766530E-02
                YY=  0.12460138E+01         YZ= -0.64204446E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6941533E-04 Y= -0.4032480E-09 Z=  0.5956922E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161240E+02         XY=  0.34707475E-03         XZ=  0.30085129E-01
                YY= -0.10161934E+02         YZ=  0.29784607E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.73237413E-03 Y=  0.14379196E-10 Z= -0.36802386E-08   Total=     0.00073237
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12598536E+01         XY=  0.69199328E-02         XZ=  0.71283842E-02
                YY=  0.12460138E+01         YZ= -0.34646373E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1198516E-03 Y= -0.4019477E-09 Z=  0.5956922E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160736E+02         XY=  0.59925601E-03         XZ=  0.30352775E-01
                YY= -0.10161934E+02         YZ=  0.29784606E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28221851E-03 Y=  0.14607083E-10 Z= -0.21351609E-08   Total=     0.00028222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12513469E+01         XY=  0.26665786E-02         XZ=  0.32342843E-02
                YY=  0.12460138E+01         YZ= -0.20045906E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1249066E-03 Y= -0.4008640E-09 Z=  0.5956921E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160685E+02         XY=  0.62453124E-03         XZ=  0.30405516E-01
                YY= -0.10161934E+02         YZ=  0.29784604E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28187107E-03 Y=  0.11970981E-10 Z= -0.42186923E-08   Total=     0.00028187
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12406871E+01         XY= -0.26632956E-02         XZ= -0.19487575E-02
                YY=  0.12460137E+01         YZ= -0.39754650E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8206363E-04 Y= -0.4000694E-09 Z=  0.5956920E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161114E+02         XY=  0.41031627E-03         XZ=  0.30220419E-01
                YY= -0.10161934E+02         YZ=  0.29784601E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.74520182E-03 Y=  0.74455887E-11 Z= -0.69308044E-08   Total=     0.00074520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12319314E+01         XY= -0.70411367E-02         XZ= -0.64512570E-02
                YY=  0.12460138E+01         YZ= -0.65418307E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7126920E-05 Y= -0.4001416E-09 Z=  0.5956920E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161863E+02         XY=  0.35632717E-04         XZ=  0.29865380E-01
                YY= -0.10161934E+02         YZ=  0.29784597E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.92892346E-03 Y=  0.27401654E-11 Z= -0.62891877E-08   Total=     0.00092892
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12284596E+01         XY= -0.87770547E-02         XZ= -0.85392892E-02
                YY=  0.12460138E+01         YZ= -0.59395296E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7159929E-04 Y= -0.4005751E-09 Z=  0.5956919E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162650E+02         XY= -0.35799833E-03         XZ=  0.29474274E-01
                YY= -0.10161934E+02         YZ=  0.29784594E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.75903214E-03 Y= -0.46675459E-12 Z= -0.28923621E-08   Total=     0.00075903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12316701E+01         XY= -0.71718143E-02         XZ= -0.73819655E-02
                YY=  0.12460138E+01         YZ= -0.27326894E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1239967E-03 Y= -0.4002139E-09 Z=  0.5956919E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163174E+02         XY= -0.61998549E-03         XZ=  0.29196487E-01
                YY= -0.10161934E+02         YZ=  0.29784594E-01         ZZ= -0.12203852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29608201E-03 Y= -0.12414563E-11 Z= -0.12435575E-08   Total=     0.00029608
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12404186E+01         XY= -0.27975696E-02         XZ= -0.33813565E-02
                YY=  0.12460138E+01         YZ= -0.11754716E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1296508E-03 Y= -0.4006473E-09 Z=  0.5956919E-02  Total=      0.0059583
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163231E+02         XY= -0.64825570E-03         XZ=  0.29139888E-01
                YY= -0.10161934E+02         YZ=  0.29784592E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28628909E-03 Y=  0.25195567E-12 Z= -0.35990698E-08   Total=     0.00028629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12514238E+01         XY=  0.27050399E-02         XZ=  0.19658830E-02
                YY=  0.12460137E+01         YZ= -0.33999035E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8579699E-04 Y= -0.4010808E-09 Z=  0.5956918E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162792E+02         XY= -0.42898684E-03         XZ=  0.29328966E-01
                YY= -0.10161934E+02         YZ=  0.29784588E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.76644909E-03 Y=  0.28965449E-11 Z= -0.67717370E-08   Total=     0.00076645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12604975E+01         XY=  0.72418944E-02         XZ=  0.66280810E-02
                YY=  0.12460137E+01         YZ= -0.63954776E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8605607E-05 Y= -0.4016587E-09 Z=  0.5956917E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162020E+02         XY= -0.43029912E-04         XZ=  0.29694402E-01
                YY= -0.10161934E+02         YZ=  0.29784584E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.95909103E-03 Y=  0.51736848E-11 Z= -0.64261550E-08   Total=     0.00095909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12641379E+01         XY=  0.90620969E-02         XZ=  0.88102133E-02
                YY=  0.12460138E+01         YZ= -0.60670883E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7277341E-04 Y= -0.4025256E-09 Z=  0.5956917E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161207E+02         XY=  0.36386517E-03         XZ=  0.30098429E-01
                YY= -0.10161934E+02         YZ=  0.29784582E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78671357E-03 Y=  0.58533375E-11 Z= -0.30731518E-08   Total=     0.00078671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12608805E+01         XY=  0.74333661E-02         XZ=  0.76446970E-02
                YY=  0.12460138E+01         YZ= -0.28984157E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1272148E-03 Y= -0.4023811E-09 Z=  0.5956917E-02  Total=      0.0059583
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160662E+02         XY=  0.63607213E-03         XZ=  0.30386759E-01
                YY= -0.10161934E+02         YZ=  0.29784581E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31070263E-03 Y=  0.45090384E-11 Z= -0.14519634E-08   Total=     0.00031070
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12518851E+01         XY=  0.29357145E-02         XZ=  0.35356201E-02
                YY=  0.12460137E+01         YZ= -0.13677435E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1335195E-03 Y= -0.4019477E-09 Z=  0.5956916E-02  Total=      0.0059584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160599E+02         XY=  0.66759543E-03         XZ=  0.30447479E-01
                YY= -0.10161934E+02         YZ=  0.29784579E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29041579E-03 Y=  0.16406798E-11 Z= -0.39997339E-08   Total=     0.00029042
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12405256E+01         XY= -0.27440315E-02         XZ= -0.19799142E-02
                YY=  0.12460137E+01         YZ= -0.37774280E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8866352E-04 Y= -0.4023811E-09 Z=  0.5956915E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161048E+02         XY=  0.44331571E-03         XZ=  0.30254473E-01
                YY= -0.10161934E+02         YZ=  0.29784575E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.78789298E-03 Y= -0.16227038E-11 Z= -0.73746475E-08   Total=     0.00078789
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12311247E+01         XY= -0.74445098E-02         XZ= -0.68063850E-02
                YY=  0.12460137E+01         YZ= -0.69689785E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9187624E-05 Y= -0.4035370E-09 Z=  0.5956915E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161843E+02         XY=  0.45936249E-04         XZ=  0.29878504E-01
                YY= -0.10161934E+02         YZ=  0.29784571E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.98977700E-03 Y= -0.40759733E-11 Z= -0.69656698E-08   Total=     0.00098978
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12273096E+01         XY= -0.93520374E-02         XZ= -0.90857673E-02
                YY=  0.12460138E+01         YZ= -0.65846029E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7489300E-04 Y= -0.4044761E-09 Z=  0.5956914E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162683E+02         XY= -0.37446687E-03         XZ=  0.29461322E-01
                YY= -0.10161934E+02         YZ=  0.29784568E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.81494114E-03 Y= -0.49778071E-11 Z= -0.32993585E-08   Total=     0.00081494
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12306136E+01         XY= -0.77000779E-02         XZ= -0.79125267E-02
                YY=  0.12460138E+01         YZ= -0.31212118E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1314189E-03 Y= -0.4037537E-09 Z=  0.5956914E-02  Total=      0.0059584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163249E+02         XY= -0.65709644E-03         XZ=  0.29162246E-01
                YY= -0.10161934E+02         YZ=  0.29784567E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32558486E-03 Y= -0.43323901E-11 Z= -0.14469822E-08   Total=     0.00032558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12398610E+01         XY= -0.30763311E-02         XZ= -0.36926262E-02
                YY=  0.12460137E+01         YZ= -0.13704595E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1383818E-03 Y= -0.4038259E-09 Z=  0.5956913E-02  Total=      0.0059585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163318E+02         XY= -0.69191093E-03         XZ=  0.29097348E-01
                YY= -0.10161934E+02         YZ=  0.29784565E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29477728E-03 Y= -0.28046058E-11 Z= -0.40753820E-08   Total=     0.00029478
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12515842E+01         XY=  0.27852416E-02         XZ=  0.19955179E-02
                YY=  0.12460137E+01         YZ= -0.38526936E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9248565E-04 Y= -0.4053430E-09 Z=  0.5956913E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162859E+02         XY= -0.46243013E-03         XZ=  0.29294438E-01
                YY= -0.10161934E+02         YZ=  0.29784561E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.81009705E-03 Y= -0.13385438E-11 Z= -0.76757420E-08   Total=     0.00081010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12613223E+01         XY=  0.76543078E-02         XZ=  0.69910678E-02
                YY=  0.12460137E+01         YZ= -0.72533414E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1064586E-04 Y= -0.4072212E-09 Z=  0.5956912E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162041E+02         XY= -0.53231153E-04         XZ=  0.29681308E-01
                YY= -0.10161934E+02         YZ=  0.29784557E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10215796E-02 Y= -0.68450760E-12 Z= -0.73166925E-08   Total=     0.00102158
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12653188E+01         XY=  0.96525279E-02         XZ=  0.93713417E-02
                YY=  0.12460138E+01         YZ= -0.69135543E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7623700E-04 Y= -0.4080159E-09 Z=  0.5956911E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161172E+02         XY=  0.38118314E-03         XZ=  0.30112140E-01
                YY= -0.10161934E+02         YZ=  0.29784554E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84433371E-03 Y= -0.10685550E-11 Z= -0.35060043E-08   Total=     0.00084433
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12619693E+01         XY=  0.79777973E-02         XZ=  0.81914499E-02
                YY=  0.12460138E+01         YZ= -0.33132949E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1349406E-03 Y= -0.4075102E-09 Z=  0.5956911E-02  Total=      0.0059584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160585E+02         XY=  0.67470111E-03         XZ=  0.30422448E-01
                YY= -0.10161934E+02         YZ=  0.29784553E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34134527E-03 Y= -0.21538053E-11 Z= -0.16318098E-08   Total=     0.00034135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12524642E+01         XY=  0.32252454E-02         XZ=  0.38586246E-02
                YY=  0.12460137E+01         YZ= -0.15433365E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1426206E-03 Y= -0.4085938E-09 Z=  0.5956911E-02  Total=      0.0059586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160508E+02         XY=  0.71310132E-03         XZ=  0.30491857E-01
                YY= -0.10161934E+02         YZ=  0.29784551E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29878693E-03 Y= -0.32880627E-11 Z= -0.45642708E-08   Total=     0.00029879
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12403674E+01         XY= -0.28231274E-02         XZ= -0.20067848E-02
                YY=  0.12460137E+01         YZ= -0.43150534E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9569392E-04 Y= -0.4104721E-09 Z=  0.5956910E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160978E+02         XY=  0.47846774E-03         XZ=  0.30290776E-01
                YY= -0.10161934E+02         YZ=  0.29784546E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.83253129E-03 Y= -0.38903977E-11 Z= -0.85661791E-08   Total=     0.00083253
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12302811E+01         XY= -0.78662807E-02         XZ= -0.71768962E-02
                YY=  0.12460137E+01         YZ= -0.80968190E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1145298E-04 Y= -0.4122781E-09 Z=  0.5956909E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161820E+02         XY=  0.57263028E-04         XZ=  0.29892863E-01
                YY= -0.10161934E+02         YZ=  0.29784541E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10540462E-02 Y= -0.37655658E-11 Z= -0.83145690E-08   Total=     0.00105405
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12260951E+01         XY= -0.99592930E-02         XZ= -0.96623062E-02
                YY=  0.12460138E+01         YZ= -0.78590003E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7829752E-04 Y= -0.4139396E-09 Z=  0.5956908E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162717E+02         XY= -0.39148949E-03         XZ=  0.29448094E-01
                YY= -0.10161934E+02         YZ=  0.29784538E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87452874E-03 Y= -0.31830363E-11 Z= -0.42733287E-08   Total=     0.00087453
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12294875E+01         XY= -0.82630991E-02         XZ= -0.84773291E-02
                YY=  0.12460138E+01         YZ= -0.40401330E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1392443E-03 Y= -0.4152400E-09 Z=  0.5956908E-02  Total=      0.0059585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163327E+02         XY= -0.69622356E-03         XZ=  0.29126254E-01
                YY= -0.10161934E+02         YZ=  0.29784536E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35771565E-03 Y= -0.26875254E-11 Z= -0.21951575E-08   Total=     0.00035772
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12392538E+01         XY= -0.33799231E-02         XZ= -0.40301769E-02
                YY=  0.12460137E+01         YZ= -0.20761777E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1476805E-03 Y= -0.4156012E-09 Z=  0.5956907E-02  Total=      0.0059587
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163411E+02         XY= -0.73840431E-03         XZ=  0.29052143E-01
                YY= -0.10161934E+02         YZ=  0.29784534E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30262001E-03 Y= -0.27534331E-11 Z= -0.52407130E-08   Total=     0.00030262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12517323E+01         XY=  0.28593447E-02         XZ=  0.20161014E-02
                YY=  0.12460137E+01         YZ= -0.49539107E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9972037E-04 Y= -0.4176961E-09 Z=  0.5956906E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162932E+02         XY= -0.49860373E-03         XZ=  0.29257213E-01
                YY= -0.10161934E+02         YZ=  0.29784528E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.85528174E-03 Y= -0.34797263E-11 Z= -0.95115480E-08   Total=     0.00085528
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12621761E+01         XY=  0.80812412E-02         XZ=  0.73651613E-02
                YY=  0.12460137E+01         YZ= -0.89899080E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1303565E-04 Y= -0.4207303E-09 Z=  0.5956905E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162065E+02         XY= -0.65180128E-04         XZ=  0.29666364E-01
                YY= -0.10161934E+02         YZ=  0.29784522E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10871774E-02 Y= -0.45017949E-11 Z= -0.93090235E-08   Total=     0.00108718
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12665584E+01         XY=  0.10272338E-01         XZ=  0.99592147E-02
                YY=  0.12460137E+01         YZ= -0.87994274E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7964644E-04 Y= -0.4226085E-09 Z=  0.5956904E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161138E+02         XY=  0.39823030E-03         XZ=  0.30125394E-01
                YY= -0.10161934E+02         YZ=  0.29784519E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.90544478E-03 Y= -0.51792763E-11 Z= -0.50282687E-08   Total=     0.00090544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12631241E+01         XY=  0.85552133E-02         XZ=  0.87703098E-02
                YY=  0.12460138E+01         YZ= -0.47552773E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1428939E-03 Y= -0.4244868E-09 Z=  0.5956904E-02  Total=      0.0059586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160506E+02         XY=  0.71446778E-03         XZ=  0.30459089E-01
                YY= -0.10161934E+02         YZ=  0.29784517E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37453715E-03 Y= -0.49676411E-11 Z= -0.27443650E-08   Total=     0.00037454
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12530914E+01         XY=  0.35388632E-02         XZ=  0.42069431E-02
                YY=  0.12460137E+01         YZ= -0.25971288E-07         ZZ=  0.12460137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1521109E-03 Y= -0.4241256E-09 Z=  0.5956903E-02  Total=      0.0059588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160413E+02         XY=  0.76055262E-03         XZ=  0.30538080E-01
                YY= -0.10161934E+02         YZ=  0.29784514E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30650402E-03 Y= -0.37725716E-11 Z= -0.58654275E-08   Total=     0.00030650
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12402216E+01         XY= -0.28960433E-02         XZ= -0.20245627E-02
                YY=  0.12460137E+01         YZ= -0.55451149E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1030949E-03 Y= -0.4232587E-09 Z=  0.5956902E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160904E+02         XY=  0.51547272E-03         XZ=  0.30328971E-01
                YY= -0.10161934E+02         YZ=  0.29784509E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87862975E-03 Y= -0.20823771E-11 Z= -0.10308517E-07   Total=     0.00087863
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12294100E+01         XY= -0.83018480E-02         XZ= -0.75576456E-02
                YY=  0.12460137E+01         YZ= -0.97418326E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1390014E-04 Y= -0.4239811E-09 Z=  0.5956901E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161795E+02         XY=  0.69498780E-04         XZ=  0.29908316E-01
                YY= -0.10161934E+02         YZ=  0.29784502E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11212878E-02 Y= -0.78075751E-12 Z= -0.10026896E-07   Total=     0.00112129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12248244E+01         XY= -0.10594634E-01         XZ= -0.10264008E-01
                YY=  0.12460137E+01         YZ= -0.94746857E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8180346E-04 Y= -0.4248480E-09 Z=  0.5956900E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162753E+02         XY= -0.40901919E-03         XZ=  0.29434640E-01
                YY= -0.10161934E+02         YZ=  0.29784498E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.93740580E-03 Y= -0.71002819E-12 Z= -0.54351376E-08   Total=     0.00093741
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12282993E+01         XY= -0.88572012E-02         XZ= -0.90719788E-02
                YY=  0.12460138E+01         YZ= -0.51360907E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1474356E-03 Y= -0.4252092E-09 Z=  0.5956900E-02  Total=      0.0059587
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163409E+02         XY= -0.73718014E-03         XZ=  0.29088727E-01
                YY= -0.10161934E+02         YZ=  0.29784497E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39212269E-03 Y= -0.21965847E-11 Z= -0.30314464E-08   Total=     0.00039212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12386036E+01         XY= -0.37050224E-02         XZ= -0.43901245E-02
                YY=  0.12460137E+01         YZ= -0.28662241E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1574839E-03 Y= -0.4249925E-09 Z=  0.5956899E-02  Total=      0.0059590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163509E+02         XY= -0.78742153E-03         XZ=  0.29004636E-01
                YY= -0.10161934E+02         YZ=  0.29784493E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31014859E-03 Y= -0.47919944E-11 Z= -0.64984463E-08   Total=     0.00031015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12518746E+01         XY=  0.29304795E-02         XZ=  0.20310482E-02
                YY=  0.12460137E+01         YZ= -0.61442750E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1074142E-03 Y= -0.4247757E-09 Z=  0.5956898E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163009E+02         XY= -0.53707297E-03         XZ=  0.29217780E-01
                YY= -0.10161934E+02         YZ=  0.29784487E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.90230547E-03 Y= -0.73917799E-11 Z= -0.11474210E-07   Total=     0.00090231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12630647E+01         XY=  0.85255511E-02         XZ=  0.77531794E-02
                YY=  0.12460137E+01         YZ= -0.10847885E-06         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1566718E-04 Y= -0.4261483E-09 Z=  0.5956896E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162091E+02         XY= -0.78337795E-04         XZ=  0.29650155E-01
                YY= -0.10161934E+02         YZ=  0.29784480E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11561116E-02 Y= -0.87117779E-11 Z= -0.11393710E-07   Total=     0.00115611
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12678610E+01         XY=  0.10923672E-01         XZ=  0.10575649E-01
                YY=  0.12460137E+01         YZ= -0.10772925E-06         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8312251E-04 Y= -0.4279543E-09 Z=  0.5956896E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161103E+02         XY=  0.41561064E-03         XZ=  0.30138823E-01
                YY= -0.10161934E+02         YZ=  0.29784476E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.97012388E-03 Y= -0.79137343E-11 Z= -0.65530592E-08   Total=     0.00097012
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12643464E+01         XY=  0.91663422E-02         XZ=  0.93814782E-02
                YY=  0.12460137E+01         YZ= -0.61984882E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1511946E-03 Y= -0.4287490E-09 Z=  0.5956895E-02  Total=      0.0059588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160423E+02         XY=  0.75597085E-03         XZ=  0.30497282E-01
                YY= -0.10161934E+02         YZ=  0.29784473E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41013189E-03 Y= -0.50763726E-11 Z= -0.38494325E-08   Total=     0.00041013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12537640E+01         XY=  0.38751847E-02         XZ=  0.45785797E-02
                YY=  0.12460137E+01         YZ= -0.36415388E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1620900E-03 Y= -0.4283878E-09 Z=  0.5956894E-02  Total=      0.0059591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160314E+02         XY=  0.81044830E-03         XZ=  0.30586621E-01
                YY= -0.10161934E+02         YZ=  0.29784470E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31397204E-03 Y= -0.12584024E-11 Z= -0.73303155E-08   Total=     0.00031397
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12400804E+01         XY= -0.29666059E-02         XZ= -0.20376793E-02
                YY=  0.12460137E+01         YZ= -0.69272953E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1109268E-03 Y= -0.4276654E-09 Z=  0.5956893E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160825E+02         XY=  0.55463216E-03         XZ=  0.30369309E-01
                YY= -0.10161934E+02         YZ=  0.29784463E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.92681972E-03 Y=  0.19160108E-11 Z= -0.12502665E-07   Total=     0.00092682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12284993E+01         XY= -0.87571772E-02         XZ= -0.79551432E-02
                YY=  0.12460137E+01         YZ= -0.11811815E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1653554E-04 Y= -0.4260761E-09 Z=  0.5956891E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161769E+02         XY=  0.82675795E-04         XZ=  0.29924820E-01
                YY= -0.10161934E+02         YZ=  0.29784455E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11922534E-02 Y=  0.29865923E-11 Z= -0.12427157E-07   Total=     0.00119225
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12234833E+01         XY= -0.11265162E-01         XZ= -0.10898451E-01
                YY=  0.12460137E+01         YZ= -0.11739604E-06         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8546200E-04 Y= -0.4258594E-09 Z=  0.5956891E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162789E+02         XY= -0.42731193E-03         XZ=  0.29420611E-01
                YY= -0.10161934E+02         YZ=  0.29784451E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10042858E-02 Y=  0.13701644E-11 Z= -0.73763169E-08   Total=     0.00100429
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12270354E+01         XY= -0.94891256E-02         XZ= -0.97036396E-02
                YY=  0.12460137E+01         YZ= -0.69686394E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1560922E-03 Y= -0.4252814E-09 Z=  0.5956890E-02  Total=      0.0059589
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163495E+02         XY= -0.78046305E-03         XZ=  0.29049058E-01
                YY= -0.10161934E+02         YZ=  0.29784448E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42931541E-03 Y= -0.22899186E-11 Z= -0.46527013E-08   Total=     0.00042932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12379007E+01         XY= -0.40564428E-02         XZ= -0.47776612E-02
                YY=  0.12460137E+01         YZ= -0.43982837E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1679182E-03 Y= -0.4247757E-09 Z=  0.5956889E-02  Total=      0.0059593
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163614E+02         XY= -0.83959282E-03         XZ=  0.28954070E-01
                YY= -0.10161934E+02         YZ=  0.29784444E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31718049E-03 Y= -0.63341401E-11 Z= -0.85610734E-08   Total=     0.00031718
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12520074E+01         XY=  0.29969213E-02         XZ=  0.20383213E-02
                YY=  0.12460137E+01         YZ= -0.80945492E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1156914E-03 Y= -0.4252092E-09 Z=  0.5956888E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163091E+02         XY= -0.57845888E-03         XZ=  0.29175381E-01
                YY= -0.10161934E+02         YZ=  0.29784436E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.95135402E-03 Y= -0.87947703E-11 Z= -0.14281140E-07   Total=     0.00095135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12639916E+01         XY=  0.89889927E-02         XZ=  0.81566913E-02
                YY=  0.12460137E+01         YZ= -0.13501271E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1863450E-04 Y= -0.4265095E-09 Z=  0.5956886E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162121E+02         XY= -0.93174427E-04         XZ=  0.29632069E-01
                YY= -0.10161934E+02         YZ=  0.29784428E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12288850E-02 Y= -0.82970151E-11 Z= -0.14305521E-07   Total=     0.00122888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12692362E+01         XY=  0.11611280E-01         XZ=  0.11225417E-01
                YY=  0.12460137E+01         YZ= -0.13523864E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8662240E-04 Y= -0.4280988E-09 Z=  0.5956885E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161068E+02         XY=  0.43311007E-03         XZ=  0.30152075E-01
                YY= -0.10161934E+02         YZ=  0.29784422E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10390668E-02 Y= -0.47385754E-11 Z= -0.87972017E-08   Total=     0.00103907
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12656492E+01         XY=  0.98177580E-02         XZ=  0.10031830E-01
                YY=  0.12460137E+01         YZ= -0.83162569E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1598603E-03 Y= -0.4278821E-09 Z=  0.5956884E-02  Total=      0.0059590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160336E+02         XY=  0.79929941E-03         XZ=  0.30536999E-01
                YY= -0.10161934E+02         YZ=  0.29784419E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44886406E-03 Y=  0.58426753E-12 Z= -0.55273923E-08   Total=     0.00044886
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12544959E+01         XY=  0.42411507E-02         XZ=  0.49810712E-02
                YY=  0.12460137E+01         YZ= -0.52222789E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1726335E-03 Y= -0.4277376E-09 Z=  0.5956883E-02  Total=      0.0059594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160208E+02         XY=  0.86316577E-03         XZ=  0.30637770E-01
                YY= -0.10161934E+02         YZ=  0.29784415E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32055358E-03 Y=  0.54923160E-11 Z= -0.92232943E-08   Total=     0.00032055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12399560E+01         XY= -0.30287923E-02         XZ= -0.20392824E-02
                YY=  0.12460137E+01         YZ= -0.87103172E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1193103E-03 Y= -0.4280266E-09 Z=  0.5956882E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160741E+02         XY=  0.59654981E-03         XZ=  0.30412344E-01
                YY= -0.10161934E+02         YZ=  0.29784407E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97664328E-03 Y=  0.78714418E-11 Z= -0.14921441E-07   Total=     0.00097664
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12275577E+01         XY= -0.92279416E-02         XZ= -0.83641393E-02
                YY=  0.12460137E+01         YZ= -0.14092338E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1950838E-04 Y= -0.4288212E-09 Z=  0.5956880E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161739E+02         XY=  0.97539989E-04         XZ=  0.29943108E-01
                YY= -0.10161934E+02         YZ=  0.29784398E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12666826E-02 Y=  0.66329939E-11 Z= -0.14695696E-07   Total=     0.00126668
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12220768E+01         XY= -0.11968416E-01         XZ= -0.11562345E-01
                YY=  0.12460137E+01         YZ= -0.13880125E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8911182E-04 Y= -0.4292547E-09 Z=  0.5956879E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162826E+02         XY= -0.44556102E-03         XZ=  0.29406829E-01
                YY= -0.10161934E+02         YZ=  0.29784392E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10750750E-02 Y=  0.22436200E-11 Z= -0.86957134E-08   Total=     0.00107508
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12256977E+01         XY= -0.10157987E-01         XZ= -0.10370874E-01
                YY=  0.12460137E+01         YZ= -0.82146735E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1650532E-03 Y= -0.4298326E-09 Z=  0.5956878E-02  Total=      0.0059592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163585E+02         XY= -0.82526785E-03         XZ=  0.29008082E-01
                YY= -0.10161934E+02         YZ=  0.29784389E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46931724E-03 Y= -0.34343032E-11 Z= -0.51829296E-08   Total=     0.00046932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12371448E+01         XY= -0.44344053E-02         XZ= -0.51928556E-02
                YY=  0.12460137E+01         YZ= -0.49003440E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1788312E-03 Y= -0.4298326E-09 Z=  0.5956877E-02  Total=      0.0059596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163723E+02         XY= -0.89415807E-03         XZ=  0.28901233E-01
                YY= -0.10161934E+02         YZ=  0.29784385E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32361201E-03 Y= -0.79413531E-11 Z= -0.92202087E-08   Total=     0.00032361
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12521290E+01         XY=  0.30576903E-02         XZ=  0.20366719E-02
                YY=  0.12460137E+01         YZ= -0.87187934E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1244146E-03 Y= -0.4304105E-09 Z=  0.5956876E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163179E+02         XY= -0.62207486E-03         XZ=  0.29130713E-01
                YY= -0.10161934E+02         YZ=  0.29784377E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10022510E-02 Y= -0.93128352E-11 Z= -0.15507278E-07   Total=     0.00100225
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12649534E+01         XY=  0.94698999E-02         XZ=  0.85734228E-02
                YY=  0.12460137E+01         YZ= -0.14660357E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2182067E-04 Y= -0.4314219E-09 Z=  0.5956874E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162153E+02         XY= -0.10910527E-03         XZ=  0.29612671E-01
                YY= -0.10161934E+02         YZ=  0.29784367E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13052306E-02 Y= -0.69738113E-11 Z= -0.15475639E-07   Total=     0.00130523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12706789E+01         XY=  0.12332642E-01         XZ=  0.11905210E-01
                YY=  0.12460137E+01         YZ= -0.14628509E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9023563E-04 Y= -0.4326500E-09 Z=  0.5956873E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161032E+02         XY=  0.45117622E-03         XZ=  0.30165547E-01
                YY= -0.10161934E+02         YZ=  0.29784361E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11118939E-02 Y= -0.20257202E-11 Z= -0.91237913E-08   Total=     0.00111189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12670254E+01         XY=  0.10505875E-01         XZ=  0.10716991E-01
                YY=  0.12460137E+01         YZ= -0.86227629E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1689450E-03 Y= -0.4335891E-09 Z=  0.5956872E-02  Total=      0.0059593
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160245E+02         XY=  0.84472313E-03         XZ=  0.30578428E-01
                YY= -0.10161934E+02         YZ=  0.29784358E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49024090E-03 Y=  0.32170623E-11 Z= -0.52170483E-08   Total=     0.00049024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12552778E+01         XY=  0.46321052E-02         XZ=  0.54091233E-02
                YY=  0.12460137E+01         YZ= -0.49270762E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1837527E-03 Y= -0.4335169E-09 Z=  0.5956871E-02  Total=      0.0059597
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160097E+02         XY=  0.91876144E-03         XZ=  0.30691480E-01
                YY= -0.10161934E+02         YZ=  0.29784354E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32681470E-03 Y=  0.62450779E-11 Z= -0.92879618E-08   Total=     0.00032681
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12398377E+01         XY= -0.30879513E-02         XZ= -0.20351321E-02
                YY=  0.12460137E+01         YZ= -0.87710451E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1282114E-03 Y= -0.4317109E-09 Z=  0.5956869E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160652E+02         XY=  0.64105485E-03         XZ=  0.30457788E-01
                YY= -0.10161934E+02         YZ=  0.29784345E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10286583E-02 Y=  0.54746574E-11 Z= -0.15867551E-07   Total=     0.00102866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12265748E+01         XY= -0.97194124E-02         XZ= -0.87900896E-02
                YY=  0.12460137E+01         YZ= -0.14988544E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2274330E-04 Y= -0.4302660E-09 Z=  0.5956867E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161707E+02         XY=  0.11371459E-03         XZ=  0.29962686E-01
                YY= -0.10161934E+02         YZ=  0.29784335E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13450198E-02 Y=  0.96775503E-12 Z= -0.15877002E-07   Total=     0.00134502
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12205965E+01         XY= -0.12708595E-01         XZ= -0.12259897E-01
                YY=  0.12460137E+01         YZ= -0.15001276E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9285711E-04 Y= -0.4308440E-09 Z=  0.5956866E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162863E+02         XY= -0.46428749E-03         XZ=  0.29392659E-01
                YY= -0.10161934E+02         YZ=  0.29784329E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11500044E-02 Y= -0.55775008E-11 Z= -0.92271547E-08   Total=     0.00115000
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12242817E+01         XY= -0.10865967E-01         XZ= -0.11075761E-01
                YY=  0.12460138E+01         YZ= -0.87235732E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1744324E-03 Y= -0.4325055E-09 Z=  0.5956866E-02  Total=      0.0059594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163679E+02         XY= -0.87216416E-03         XZ=  0.28965123E-01
                YY= -0.10161934E+02         YZ=  0.29784326E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51208269E-03 Y= -0.11566635E-10 Z= -0.51622247E-08   Total=     0.00051208
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12363367E+01         XY= -0.48384804E-02         XZ= -0.56350949E-02
                YY=  0.12460137E+01         YZ= -0.48877857E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1903242E-03 Y= -0.4343115E-09 Z=  0.5956865E-02  Total=      0.0059599
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163838E+02         XY= -0.95162282E-03         XZ=  0.28845527E-01
                YY= -0.10161934E+02         YZ=  0.29784322E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32977221E-03 Y= -0.14651402E-10 Z= -0.95594807E-08   Total=     0.00032977
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12522454E+01         XY=  0.31158957E-02         XZ=  0.20294776E-02
                YY=  0.12460137E+01         YZ= -0.90451715E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1336507E-03 Y= -0.4355396E-09 Z=  0.5956863E-02  Total=      0.0059584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163271E+02         XY= -0.66825546E-03         XZ=  0.29083362E-01
                YY= -0.10161934E+02         YZ=  0.29784313E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10555569E-02 Y= -0.13764033E-10 Z= -0.16592076E-07   Total=     0.00105556
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12659607E+01         XY=  0.99735667E-02         XZ=  0.90090613E-02
                YY=  0.12460137E+01         YZ= -0.15689273E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2524250E-04 Y= -0.4364787E-09 Z=  0.5956861E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162187E+02         XY= -0.12621444E-03         XZ=  0.29591820E-01
                YY= -0.10161934E+02         YZ=  0.29784302E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13858419E-02 Y= -0.95795378E-11 Z= -0.16519179E-07   Total=     0.00138584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12722023E+01         XY=  0.13094309E-01         XZ=  0.12622135E-01
                YY=  0.12460137E+01         YZ= -0.15616908E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9400279E-04 Y= -0.4375624E-09 Z=  0.5956860E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160995E+02         XY=  0.47001202E-03         XZ=  0.30179412E-01
                YY= -0.10161934E+02         YZ=  0.29784296E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11893113E-02 Y= -0.41995840E-11 Z= -0.91569651E-08   Total=     0.00118931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12684884E+01         XY=  0.11237364E-01         XZ=  0.11444354E-01
                YY=  0.12460138E+01         YZ= -0.86561447E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1785444E-03 Y= -0.4380680E-09 Z=  0.5956859E-02  Total=      0.0059595
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160149E+02         XY=  0.89272006E-03         XZ=  0.30622049E-01
                YY= -0.10161934E+02         YZ=  0.29784293E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53486538E-03 Y= -0.20262937E-12 Z= -0.43839200E-08   Total=     0.00053487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12561211E+01         XY=  0.50537454E-02         XZ=  0.58692573E-02
                YY=  0.12460137E+01         YZ= -0.41429526E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1955868E-03 Y= -0.4373456E-09 Z=  0.5956858E-02  Total=      0.0059601
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159979E+02         XY=  0.97793207E-03         XZ=  0.30748486E-01
                YY= -0.10161934E+02         YZ=  0.29784289E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33234629E-03 Y=  0.51053221E-12 Z= -0.86446408E-08   Total=     0.00033235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12397331E+01         XY= -0.31402173E-02         XZ= -0.20205508E-02
                YY=  0.12460137E+01         YZ= -0.81681789E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1377951E-03 Y= -0.4383570E-09 Z=  0.5956856E-02  Total=      0.0059584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160557E+02         XY=  0.68897346E-03         XZ=  0.30506539E-01
                YY= -0.10161934E+02         YZ=  0.29784280E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10827033E-02 Y= -0.24435214E-11 Z= -0.15918334E-07   Total=     0.00108270
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12255535E+01         XY= -0.10230064E-01         XZ= -0.92308111E-02
                YY=  0.12460137E+01         YZ= -0.15043314E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2641017E-04 Y= -0.4405242E-09 Z=  0.5956854E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161671E+02         XY=  0.13204891E-03         XZ=  0.29984497E-01
                YY= -0.10161934E+02         YZ=  0.29784270E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14273654E-02 Y= -0.77800045E-11 Z= -0.15850243E-07   Total=     0.00142737
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12190403E+01         XY= -0.13486648E-01         XZ= -0.12991682E-01
                YY=  0.12460137E+01         YZ= -0.14983455E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9654476E-04 Y= -0.4426915E-09 Z=  0.5956853E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162900E+02         XY= -0.48272574E-03         XZ=  0.29378970E-01
                YY= -0.10161934E+02         YZ=  0.29784263E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12294157E-02 Y= -0.13144748E-10 Z= -0.81204154E-08   Total=     0.00122942
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12227811E+01         XY= -0.11616295E-01         XZ= -0.11821503E-01
                YY=  0.12460138E+01         YZ= -0.76843226E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1841122E-03 Y= -0.4439918E-09 Z=  0.5956853E-02  Total=      0.0059597
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163776E+02         XY= -0.92056277E-03         XZ=  0.28920868E-01
                YY= -0.10161934E+02         YZ=  0.29784261E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55814610E-03 Y= -0.16184088E-10 Z= -0.31558240E-08   Total=     0.00055815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12354662E+01         XY= -0.52737165E-02         XZ= -0.61097439E-02
                YY=  0.12460137E+01         YZ= -0.29960106E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2023279E-03 Y= -0.4448587E-09 Z=  0.5956852E-02  Total=      0.0059603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163958E+02         XY= -0.10116417E-02         XZ=  0.28787374E-01
                YY= -0.10161934E+02         YZ=  0.29784257E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33500142E-03 Y= -0.15597608E-10 Z= -0.78535427E-08   Total=     0.00033500
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12523442E+01         XY=  0.31653046E-02         XZ=  0.20099347E-02
                YY=  0.12460137E+01         YZ= -0.74342254E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1433865E-03 Y= -0.4462313E-09 Z=  0.5956850E-02  Total=      0.0059586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163368E+02         XY= -0.71693445E-03         XZ=  0.29033443E-01
                YY= -0.10161934E+02         YZ=  0.29784248E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11105639E-02 Y= -0.11698814E-10 Z= -0.15861702E-07   Total=     0.00111056
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12670002E+01         XY=  0.10493308E-01         XZ=  0.94562318E-02
                YY=  0.12460137E+01         YZ= -0.14997586E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2894280E-04 Y= -0.4480373E-09 Z=  0.5956848E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162224E+02         XY= -0.14471599E-03         XZ=  0.29569321E-01
                YY= -0.10161934E+02         YZ=  0.29784238E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14700421E-02 Y= -0.62389039E-11 Z= -0.16091311E-07   Total=     0.00147004
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12737934E+01         XY=  0.13889885E-01         XZ=  0.13369138E-01
                YY=  0.12460137E+01         YZ= -0.15209984E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9783110E-04 Y= -0.4493376E-09 Z=  0.5956847E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160956E+02         XY=  0.48915353E-03         XZ=  0.30193199E-01
                YY= -0.10161934E+02         YZ=  0.29784231E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12707439E-02 Y= -0.15864254E-11 Z= -0.80389912E-08   Total=     0.00127074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12700272E+01         XY=  0.12006790E-01         XZ=  0.12207979E-01
                YY=  0.12460138E+01         YZ= -0.75977761E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1885267E-03 Y= -0.4488319E-09 Z=  0.5956846E-02  Total=      0.0059598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160049E+02         XY=  0.94263167E-03         XZ=  0.30667182E-01
                YY= -0.10161934E+02         YZ=  0.29784229E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58231859E-03 Y=  0.35177759E-12 Z= -0.27201821E-08   Total=     0.00058232
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12570178E+01         XY=  0.55021133E-02         XZ=  0.63572463E-02
                YY=  0.12460137E+01         YZ= -0.25706380E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2079795E-03 Y= -0.4479650E-09 Z=  0.5956845E-02  Total=      0.0059605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159855E+02         XY=  0.10398954E-02         XZ=  0.30807977E-01
                YY= -0.10161934E+02         YZ=  0.29784225E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33737801E-03 Y= -0.10278578E-11 Z= -0.75650519E-08   Total=     0.00033738
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12396380E+01         XY= -0.31877602E-02         XZ= -0.19977162E-02
                YY=  0.12460137E+01         YZ= -0.71495622E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1478956E-03 Y= -0.4482540E-09 Z=  0.5956844E-02  Total=      0.0059587
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160456E+02         XY=  0.73947604E-03         XZ=  0.30557745E-01
                YY= -0.10161934E+02         YZ=  0.29784216E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11388094E-02 Y= -0.48001408E-11 Z= -0.15959290E-07   Total=     0.00113881
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12244932E+01         XY= -0.10760190E-01         XZ= -0.96863652E-02
                YY=  0.12460137E+01         YZ= -0.15084150E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3034822E-04 Y= -0.4503490E-09 Z=  0.5956841E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161631E+02         XY=  0.15173912E-03         XZ=  0.30007728E-01
                YY= -0.10161934E+02         YZ=  0.29784205E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15135639E-02 Y= -0.89902286E-11 Z= -0.16136766E-07   Total=     0.00151356
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12174114E+01         XY= -0.14301107E-01         XZ= -0.13755808E-01
                YY=  0.12460137E+01         YZ= -0.15255364E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1003176E-03 Y= -0.4527329E-09 Z=  0.5956840E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162938E+02         XY= -0.50159007E-03         XZ=  0.29365060E-01
                YY= -0.10161934E+02         YZ=  0.29784199E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13129941E-02 Y= -0.11519655E-10 Z= -0.74912232E-08   Total=     0.00131299
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12212017E+01         XY= -0.12405997E-01         XZ= -0.12604581E-01
                YY=  0.12460138E+01         YZ= -0.70886337E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1942070E-03 Y= -0.4548279E-09 Z=  0.5956840E-02  Total=      0.0059600
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163877E+02         XY= -0.97103723E-03         XZ=  0.28874783E-01
                YY= -0.10161934E+02         YZ=  0.29784197E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60706969E-03 Y= -0.11170760E-10 Z= -0.17268318E-08   Total=     0.00060707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12345416E+01         XY= -0.57359774E-02         XZ= -0.66120683E-02
                YY=  0.12460137E+01         YZ= -0.16417851E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2149216E-03 Y= -0.4563450E-09 Z=  0.5956839E-02  Total=      0.0059607
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164084E+02         XY= -0.10746098E-02         XZ=  0.28726444E-01
                YY= -0.10161934E+02         YZ=  0.29784193E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33981900E-03 Y= -0.81220770E-11 Z= -0.68604970E-08   Total=     0.00033982
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12524352E+01         XY=  0.32108241E-02         XZ=  0.19835358E-02
                YY=  0.12460136E+01         YZ= -0.64898533E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1536606E-03 Y= -0.4588011E-09 Z=  0.5956837E-02  Total=      0.0059588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163471E+02         XY= -0.76830517E-03         XZ=  0.28980857E-01
                YY= -0.10161934E+02         YZ=  0.29784184E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11678271E-02 Y= -0.38167939E-11 Z= -0.15963436E-07   Total=     0.00116783
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12680823E+01         XY=  0.11034367E-01         XZ=  0.99206941E-02
                YY=  0.12460137E+01         YZ= -0.15087302E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3291867E-04 Y= -0.4616185E-09 Z=  0.5956835E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162264E+02         XY= -0.16459533E-03         XZ=  0.29545302E-01
                YY= -0.10161934E+02         YZ=  0.29784173E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15583688E-02 Y= -0.24340427E-12 Z= -0.16462107E-07   Total=     0.00155837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12754625E+01         XY=  0.14724451E-01         XZ=  0.14151700E-01
                YY=  0.12460137E+01         YZ= -0.15555519E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1017621E-03 Y= -0.4627744E-09 Z=  0.5956834E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160917E+02         XY=  0.50880828E-03         XZ=  0.30207245E-01
                YY= -0.10161934E+02         YZ=  0.29784166E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13566506E-02 Y=  0.10185080E-11 Z= -0.75350463E-08   Total=     0.00135665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12716506E+01         XY=  0.12818491E-01         XZ=  0.13012456E-01
                YY=  0.12460138E+01         YZ= -0.71196520E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1989639E-03 Y= -0.4626299E-09 Z=  0.5956833E-02  Total=      0.0059602
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159945E+02         XY=  0.99481769E-03         XZ=  0.30714324E-01
                YY= -0.10161934E+02         YZ=  0.29784164E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63291420E-03 Y= -0.46927567E-12 Z= -0.15461377E-08   Total=     0.00063291
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12579739E+01         XY=  0.59801725E-02         XZ=  0.68761392E-02
                YY=  0.12460137E+01         YZ= -0.14622336E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2210194E-03 Y= -0.4634968E-09 Z=  0.5956832E-02  Total=      0.0059609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159724E+02         XY=  0.11050951E-02         XZ=  0.30870538E-01
                YY= -0.10161934E+02         YZ=  0.29784160E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34180325E-03 Y= -0.38342154E-11 Z= -0.71275686E-08   Total=     0.00034180
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12395544E+01         XY= -0.32295727E-02         XZ= -0.19657113E-02
                YY=  0.12460136E+01         YZ= -0.67387578E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1586002E-03 Y= -0.4653751E-09 Z=  0.5956830E-02  Total=      0.0059589
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160349E+02         XY=  0.79299902E-03         XZ=  0.30611974E-01
                YY= -0.10161934E+02         YZ=  0.29784150E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11971172E-02 Y= -0.73537326E-11 Z= -0.17054456E-07   Total=     0.00119712
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12233913E+01         XY= -0.11311118E-01         XZ= -0.10158341E-01
                YY=  0.12460136E+01         YZ= -0.16121253E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3462289E-04 Y= -0.4681202E-09 Z=  0.5956828E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161588E+02         XY=  0.17311246E-03         XZ=  0.30032828E-01
                YY= -0.10161934E+02         YZ=  0.29784138E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16040031E-02 Y= -0.93111099E-11 Z= -0.17931412E-07   Total=     0.00160400
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12157023E+01         XY= -0.15155633E-01         XZ= -0.14556356E-01
                YY=  0.12460137E+01         YZ= -0.16951477E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1041507E-03 Y= -0.4701429E-09 Z=  0.5956827E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162976E+02         XY= -0.52075540E-03         XZ=  0.29351157E-01
                YY= -0.10161934E+02         YZ=  0.29784131E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14013235E-02 Y= -0.88262439E-11 Z= -0.87085408E-08   Total=     0.00140132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12195324E+01         XY= -0.13240589E-01         XZ= -0.13431062E-01
                YY=  0.12460138E+01         YZ= -0.82366995E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2047449E-03 Y= -0.4706486E-09 Z=  0.5956826E-02  Total=      0.0059603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163982E+02         XY= -0.10237267E-02         XZ=  0.28826806E-01
                YY= -0.10161934E+02         YZ=  0.29784129E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65953361E-03 Y= -0.62595943E-11 Z= -0.24220320E-08   Total=     0.00065953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12335502E+01         XY= -0.62316896E-02         XZ= -0.71491376E-02
                YY=  0.12460137E+01         YZ= -0.22946470E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2281884E-03 Y= -0.4713710E-09 Z=  0.5956825E-02  Total=      0.0059612
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164217E+02         XY= -0.11409440E-02         XZ=  0.28662374E-01
                YY= -0.10161934E+02         YZ=  0.29784124E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34357871E-03 Y= -0.30013713E-11 Z= -0.83342722E-08   Total=     0.00034358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12525062E+01         XY=  0.32463483E-02         XZ=  0.19434923E-02
                YY=  0.12460136E+01         YZ= -0.78781788E-07         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1646038E-03 Y= -0.4718767E-09 Z=  0.5956823E-02  Total=      0.0059591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163581E+02         XY= -0.82302110E-03         XZ=  0.28924972E-01
                YY= -0.10161934E+02         YZ=  0.29784114E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12268624E-02 Y= -0.75793346E-12 Z= -0.18915692E-07   Total=     0.00122686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12691979E+01         XY=  0.11592170E-01         XZ=  0.10397222E-01
                YY=  0.12460136E+01         YZ= -0.17874309E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3733042E-04 Y= -0.4739717E-09 Z=  0.5956820E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162308E+02         XY= -0.18665411E-03         XZ=  0.29518961E-01
                YY= -0.10161934E+02         YZ=  0.29784100E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16505908E-02 Y= -0.69131285E-12 Z= -0.19945284E-07   Total=     0.00165059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12772052E+01         XY=  0.15595823E-01         XZ=  0.14967099E-01
                YY=  0.12460137E+01         YZ= -0.18847095E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1056284E-03 Y= -0.4756332E-09 Z=  0.5956819E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160878E+02         XY=  0.52813988E-03         XZ=  0.30220694E-01
                YY= -0.10161934E+02         YZ=  0.29784092E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14470806E-02 Y= -0.28374590E-11 Z= -0.10199577E-07   Total=     0.00144708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12733595E+01         XY=  0.13672930E-01         XZ=  0.13857914E-01
                YY=  0.12460137E+01         YZ= -0.96405395E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2097038E-03 Y= -0.4766446E-09 Z=  0.5956818E-02  Total=      0.0059605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159838E+02         XY=  0.10485170E-02         XZ=  0.30762683E-01
                YY= -0.10161934E+02         YZ=  0.29784089E-01         ZZ= -0.12203853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68693951E-03 Y= -0.60896068E-11 Z= -0.34936365E-08   Total=     0.00068694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12589948E+01         XY=  0.64906376E-02         XZ=  0.74285829E-02
                YY=  0.12460137E+01         YZ= -0.33070518E-07         ZZ=  0.12460136E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2345855E-03 Y= -0.4785229E-09 Z=  0.5956817E-02  Total=      0.0059614
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159589E+02         XY=  0.11729255E-02         XZ=  0.30935532E-01
                YY= -0.10161934E+02         YZ=  0.29784084E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34519066E-03 Y= -0.87537479E-11 Z= -0.97894733E-08   Total=     0.00034519
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12394903E+01         XY= -0.32615791E-02         XZ= -0.19202296E-02
                YY=  0.12460136E+01         YZ= -0.92579493E-07         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1698260E-03 Y= -0.4801122E-09 Z=  0.5956815E-02  Total=      0.0059592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160236E+02         XY=  0.84912796E-03         XZ=  0.30668798E-01
                YY= -0.10161934E+02         YZ=  0.29784072E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12571625E-02 Y= -0.94022152E-11 Z= -0.21205584E-07   Total=     0.00125716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12222566E+01         XY= -0.11878465E-01         XZ= -0.10641848E-01
                YY=  0.12460136E+01         YZ= -0.20045105E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3918805E-04 Y= -0.4827128E-09 Z=  0.5956812E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161543E+02         XY=  0.19593825E-03         XZ=  0.30059573E-01
                YY= -0.10161934E+02         YZ=  0.29784058E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16982766E-02 Y= -0.76023490E-11 Z= -0.22559321E-07   Total=     0.00169828
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12139208E+01         XY= -0.16046389E-01         XZ= -0.15388788E-01
                YY=  0.12460137E+01         YZ= -0.21322649E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1080603E-03 Y= -0.4850245E-09 Z=  0.5956810E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163015E+02         XY= -0.54030373E-03         XZ=  0.29337217E-01
                YY= -0.10161934E+02         YZ=  0.29784049E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14940965E-02 Y= -0.41559934E-11 Z= -0.12342111E-07   Total=     0.00149410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12177792E+01         XY= -0.14117166E-01         XZ= -0.14297277E-01
                YY=  0.12460137E+01         YZ= -0.11665869E-06         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2157205E-03 Y= -0.4850245E-09 Z=  0.5956809E-02  Total=      0.0059607
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164092E+02         XY= -0.10786046E-02         XZ=  0.28777032E-01
                YY= -0.10161934E+02         YZ=  0.29784045E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71531795E-03 Y= -0.72403164E-12 Z= -0.51390297E-08   Total=     0.00071532
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12324960E+01         XY= -0.67587751E-02         XZ= -0.77181920E-02
                YY=  0.12460137E+01         YZ= -0.48570595E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2421067E-03 Y= -0.4858914E-09 Z=  0.5956808E-02  Total=      0.0059617
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164356E+02         XY= -0.12105356E-02         XZ=  0.28595362E-01
                YY= -0.10161934E+02         YZ=  0.29784039E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34645755E-03 Y=  0.98747145E-12 Z= -0.11676344E-07   Total=     0.00034646
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12525605E+01         XY=  0.32735495E-02         XZ=  0.18919449E-02
                YY=  0.12460136E+01         YZ= -0.11032496E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1761789E-03 Y= -0.4884921E-09 Z=  0.5956806E-02  Total=      0.0059594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163697E+02         XY= -0.88089668E-03         XZ=  0.28866078E-01
                YY= -0.10161934E+02         YZ=  0.29784026E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12878468E-02 Y=  0.83160507E-13 Z= -0.23778800E-07   Total=     0.00128785
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12703502E+01         XY=  0.12168389E-01         XZ=  0.10887663E-01
                YY=  0.12460136E+01         YZ= -0.22468420E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4212421E-04 Y= -0.4919597E-09 Z=  0.5956802E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162356E+02         XY= -0.21062310E-03         XZ=  0.29490669E-01
                YY= -0.10161934E+02         YZ=  0.29784010E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17468936E-02 Y= -0.30470614E-11 Z= -0.25323639E-07   Total=     0.00174689
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12790250E+01         XY=  0.16505752E-01         XZ=  0.15816962E-01
                YY=  0.12460137E+01         YZ= -0.23930694E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1095008E-03 Y= -0.4952827E-09 Z=  0.5956800E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160840E+02         XY=  0.54750209E-03         XZ=  0.30233989E-01
                YY= -0.10161934E+02         YZ=  0.29783999E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15421874E-02 Y= -0.68794174E-11 Z= -0.14534917E-07   Total=     0.00154219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12751567E+01         XY=  0.14571559E-01         XZ=  0.14745436E-01
                YY=  0.12460137E+01         YZ= -0.13740012E-06         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2208290E-03 Y= -0.4971610E-09 Z=  0.5956799E-02  Total=      0.0059609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159727E+02         XY=  0.11041427E-02         XZ=  0.30812743E-01
                YY= -0.10161934E+02         YZ=  0.29783995E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.74443905E-03 Y= -0.94760747E-11 Z= -0.68019354E-08   Total=     0.00074444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12600813E+01         XY=  0.70339296E-02         XZ=  0.80144991E-02
                YY=  0.12460137E+01         YZ= -0.64355383E-07         ZZ=  0.12460135E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2487602E-03 Y= -0.4985336E-09 Z=  0.5956798E-02  Total=      0.0059620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159447E+02         XY=  0.12437989E-02         XZ=  0.31003420E-01
                YY= -0.10161934E+02         YZ=  0.29783988E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34768373E-03 Y= -0.94344128E-11 Z= -0.13629233E-07   Total=     0.00034768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12394431E+01         XY= -0.32851353E-02         XZ= -0.18631378E-02
                YY=  0.12460136E+01         YZ= -0.12886323E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1816376E-03 Y= -0.5009175E-09 Z=  0.5956795E-02  Total=      0.0059596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160118E+02         XY=  0.90818596E-03         XZ=  0.30728566E-01
                YY= -0.10161934E+02         YZ=  0.29783974E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13193141E-02 Y= -0.66064210E-11 Z= -0.26503478E-07   Total=     0.00131931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12210820E+01         XY= -0.12465711E-01         XZ= -0.11140802E-01
                YY=  0.12460136E+01         YZ= -0.25048318E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4407216E-04 Y= -0.5051075E-09 Z=  0.5956792E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161494E+02         XY=  0.22035877E-03         XZ=  0.30088118E-01
                YY= -0.10161934E+02         YZ=  0.29783956E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17969410E-02 Y= -0.22291252E-11 Z= -0.28292511E-07   Total=     0.00179694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12120563E+01         XY= -0.16978632E-01         XZ= -0.16258679E-01
                YY=  0.12460137E+01         YZ= -0.26735024E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1120668E-03 Y= -0.5076359E-09 Z=  0.5956789E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163056E+02         XY= -0.56033591E-03         XZ=  0.29323138E-01
                YY= -0.10161934E+02         YZ=  0.29783944E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15919434E-02 Y=  0.16170021E-11 Z= -0.16938222E-07   Total=     0.00159194
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12159302E+01         XY= -0.15041685E-01         XZ= -0.15209398E-01
                YY=  0.12460137E+01         YZ= -0.16003550E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2272036E-03 Y= -0.5079971E-09 Z=  0.5956788E-02  Total=      0.0059611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164207E+02         XY= -0.11360199E-02         XZ=  0.28725101E-01
                YY= -0.10161934E+02         YZ=  0.29783939E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.77496361E-03 Y=  0.29809678E-11 Z= -0.86960174E-08   Total=     0.00077496
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12313688E+01         XY= -0.73223449E-02         XZ= -0.83245108E-02
                YY=  0.12460136E+01         YZ= -0.82146588E-07         ZZ=  0.12460134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2567833E-03 Y= -0.5079249E-09 Z=  0.5956787E-02  Total=      0.0059623
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164503E+02         XY= -0.12839184E-02         XZ=  0.28524857E-01
                YY= -0.10161934E+02         YZ=  0.29783931E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34816279E-03 Y=  0.98910654E-12 Z= -0.15910518E-07   Total=     0.00034816
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12525927E+01         XY=  0.32896617E-02         XZ=  0.18259615E-02
                YY=  0.12460135E+01         YZ= -0.15033049E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1885057E-03 Y= -0.5084306E-09 Z=  0.5956783E-02  Total=      0.0059598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163820E+02         XY= -0.94253066E-03         XZ=  0.28803551E-01
                YY= -0.10161934E+02         YZ=  0.29783915E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13508339E-02 Y= -0.36896720E-11 Z= -0.29704558E-07   Total=     0.00135083
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12715405E+01         XY=  0.12763530E-01         XZ=  0.11392350E-01
                YY=  0.12460136E+01         YZ= -0.28070447E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4740404E-04 Y= -0.5108867E-09 Z=  0.5956780E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162409E+02         XY= -0.23702221E-03         XZ=  0.29459873E-01
                YY= -0.10161934E+02         YZ=  0.29783896E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18476775E-02 Y= -0.90999202E-11 Z= -0.31836134E-07   Total=     0.00184768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12809295E+01         XY=  0.17458022E-01         XZ=  0.16704927E-01
                YY=  0.12460137E+01         YZ= -0.30089018E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1133163E-03 Y= -0.5142821E-09 Z=  0.5956777E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160802E+02         XY=  0.56657947E-03         XZ=  0.30246778E-01
                YY= -0.10161934E+02         YZ=  0.29783882E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16426169E-02 Y= -0.12877519E-10 Z= -0.19890906E-07   Total=     0.00164262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12770545E+01         XY=  0.15520480E-01         XZ=  0.15681087E-01
                YY=  0.12460137E+01         YZ= -0.18805566E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2323315E-03 Y= -0.5155102E-09 Z=  0.5956776E-02  Total=      0.0059613
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159612E+02         XY=  0.11616553E-02         XZ=  0.30864430E-01
                YY= -0.10161934E+02         YZ=  0.29783876E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.80613559E-03 Y= -0.13351161E-10 Z= -0.11008713E-07   Total=     0.00080614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12612472E+01         XY=  0.76168773E-02         XZ=  0.86408629E-02
                YY=  0.12460136E+01         YZ= -0.10413492E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2635905E-03 Y= -0.5155824E-09 Z=  0.5956774E-02  Total=      0.0059626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159299E+02         XY=  0.13179505E-02         XZ=  0.31074412E-01
                YY= -0.10161934E+02         YZ=  0.29783867E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34866148E-03 Y= -0.10351065E-10 Z= -0.18441626E-07   Total=     0.00034866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12394246E+01         XY= -0.32943737E-02         XZ= -0.17882123E-02
                YY=  0.12460135E+01         YZ= -0.17434053E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1941237E-03 Y= -0.5171717E-09 Z=  0.5956770E-02  Total=      0.0059599
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159994E+02         XY=  0.97061632E-03         XZ=  0.30791716E-01
                YY= -0.10161934E+02         YZ=  0.29783850E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13831825E-02 Y= -0.53342485E-11 Z= -0.32981660E-07   Total=     0.00138318
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12198750E+01         XY= -0.13069181E-01         XZ= -0.11651008E-01
                YY=  0.12460135E+01         YZ= -0.31168185E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4938457E-04 Y= -0.5199891E-09 Z=  0.5956766E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161441E+02         XY=  0.24692078E-03         XZ=  0.30119025E-01
                YY= -0.10161934E+02         YZ=  0.29783828E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18998821E-02 Y= -0.74889012E-12 Z= -0.35266686E-07   Total=     0.00189988
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12101109E+01         XY= -0.17951284E-01         XZ= -0.17164404E-01
                YY=  0.12460136E+01         YZ= -0.33323380E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1160611E-03 Y= -0.5220841E-09 Z=  0.5956763E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163096E+02         XY= -0.58030755E-03         XZ=  0.29309501E-01
                YY= -0.10161934E+02         YZ=  0.29783814E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16949784E-02 Y=  0.10841946E-11 Z= -0.22540545E-07   Total=     0.00169498
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12139830E+01         XY= -0.16015225E-01         XZ= -0.16168097E-01
                YY=  0.12460137E+01         YZ= -0.21297389E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2391006E-03 Y= -0.5221563E-09 Z=  0.5956762E-02  Total=      0.0059616
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164326E+02         XY= -0.11955052E-02         XZ=  0.28671531E-01
                YY= -0.10161934E+02         YZ=  0.29783806E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.83870660E-03 Y= -0.93913482E-12 Z= -0.12902199E-07   Total=     0.00083871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12301642E+01         XY= -0.79246289E-02         XZ= -0.89702071E-02
                YY=  0.12460136E+01         YZ= -0.12192174E-06         ZZ=  0.12460133E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2721453E-03 Y= -0.5228787E-09 Z=  0.5956760E-02  Total=      0.0059630
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164656E+02         XY= -0.13607287E-02         XZ=  0.28451268E-01
                YY= -0.10161934E+02         YZ=  0.29783797E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34845330E-03 Y= -0.61560660E-11 Z= -0.20584784E-07   Total=     0.00034845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12525981E+01         XY=  0.32924065E-02         XZ=  0.17430153E-02
                YY=  0.12460135E+01         YZ= -0.19455542E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2015291E-03 Y= -0.5251904E-09 Z=  0.5956756E-02  Total=      0.0059602
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163950E+02         XY= -0.10076474E-02         XZ=  0.28737694E-01
                YY= -0.10161934E+02         YZ=  0.29783777E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14156565E-02 Y= -0.12394299E-10 Z= -0.36038021E-07   Total=     0.00141566
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12727654E+01         XY=  0.13376016E-01         XZ=  0.11909131E-01
                YY=  0.12460135E+01         YZ= -0.34061966E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5312473E-04 Y= -0.5286580E-09 Z=  0.5956751E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162466E+02         XY= -0.26562572E-03         XZ=  0.29426798E-01
                YY= -0.10161934E+02         YZ=  0.29783754E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19528647E-02 Y= -0.16934123E-10 Z= -0.38688912E-07   Total=     0.00195286
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12829172E+01         XY=  0.18451897E-01         XZ=  0.17629513E-01
                YY=  0.12460136E+01         YZ= -0.36570497E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1171168E-03 Y= -0.5324867E-09 Z=  0.5956748E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160764E+02         XY=  0.58558213E-03         XZ=  0.30259237E-01
                YY= -0.10161934E+02         YZ=  0.29783738E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17483371E-02 Y= -0.17742555E-10 Z= -0.25359778E-07   Total=     0.00174834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12790523E+01         XY=  0.16519392E-01         XZ=  0.16663856E-01
                YY=  0.12460137E+01         YZ= -0.23976958E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2442524E-03 Y= -0.5347262E-09 Z=  0.5956746E-02  Total=      0.0059618
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159492E+02         XY=  0.12212599E-02         XZ=  0.30917887E-01
                YY= -0.10161934E+02         YZ=  0.29783729E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.87197246E-03 Y= -0.14414057E-10 Z= -0.15098204E-07   Total=     0.00087197
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12624913E+01         XY=  0.82389456E-02         XZ=  0.93066545E-02
                YY=  0.12460136E+01         YZ= -0.14278369E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2791130E-03 Y= -0.5351596E-09 Z=  0.5956744E-02  Total=      0.0059633
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159144E+02         XY=  0.13955631E-02         XZ=  0.31148615E-01
                YY= -0.10161934E+02         YZ=  0.29783719E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34826119E-03 Y= -0.83787012E-11 Z= -0.23136584E-07   Total=     0.00034826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12394321E+01         XY= -0.32905914E-02         XZ= -0.16968999E-02
                YY=  0.12460135E+01         YZ= -0.21868461E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2073096E-03 Y= -0.5363155E-09 Z=  0.5956740E-02  Total=      0.0059603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159862E+02         XY=  0.10365457E-02         XZ=  0.30858296E-01
                YY= -0.10161934E+02         YZ=  0.29783698E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14489932E-02 Y= -0.22716676E-11 Z= -0.39563966E-07   Total=     0.00144899
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12186313E+01         XY= -0.13691002E-01         XZ= -0.12174420E-01
                YY=  0.12460135E+01         YZ= -0.37384954E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5513353E-04 Y= -0.5389884E-09 Z=  0.5956735E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161384E+02         XY=  0.27566558E-03         XZ=  0.30152268E-01
                YY= -0.10161934E+02         YZ=  0.29783673E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20073631E-02 Y=  0.12552759E-11 Z= -0.42556974E-07   Total=     0.00200736
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12080798E+01         XY= -0.18966833E-01         XZ= -0.18108064E-01
                YY=  0.12460136E+01         YZ= -0.40209972E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1200527E-03 Y= -0.5415891E-09 Z=  0.5956731E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163135E+02         XY= -0.60026582E-03         XZ=  0.29296209E-01
                YY= -0.10161934E+02         YZ=  0.29783654E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18034128E-02 Y=  0.74028745E-12 Z= -0.28533422E-07   Total=     0.00180341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12119339E+01         XY= -0.17039782E-01         XZ= -0.17174949E-01
                YY=  0.12460137E+01         YZ= -0.26960068E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2514322E-03 Y= -0.5420948E-09 Z=  0.5956729E-02  Total=      0.0059620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164449E+02         XY= -0.12571630E-02         XZ=  0.28616182E-01
                YY= -0.10161934E+02         YZ=  0.29783645E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X= -0.90661618E-03 Y= -0.34173414E-11 Z= -0.17580349E-07   Total=     0.00090662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12288808E+01         XY= -0.85662815E-02         XZ= -0.96556330E-02
                YY=  0.12460136E+01         YZ= -0.16614406E-06         ZZ=  0.12460132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2882118E-03 Y= -0.5428172E-09 Z=  0.5956727E-02  Total=      0.0059637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164817E+02         XY= -0.14410611E-02         XZ=  0.28374472E-01
                YY= -0.10161934E+02         YZ=  0.29783633E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34745186E-03 Y= -0.91322598E-11 Z= -0.25998468E-07   Total=     0.00034745
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12525792E+01         XY=  0.32829442E-02         XZ=  0.16443679E-02
                YY=  0.12460135E+01         YZ= -0.24573170E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2152516E-03 Y= -0.5450566E-09 Z=  0.5956722E-02  Total=      0.0059606
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164087E+02         XY= -0.10762600E-02         XZ=  0.28668463E-01
                YY= -0.10161934E+02         YZ=  0.29783610E-01         ZZ= -0.12203854E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14826137E-02 Y= -0.13578637E-10 Z= -0.43461086E-07   Total=     0.00148261
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12740307E+01         XY=  0.14008669E-01         XZ=  0.12440746E-01
                YY=  0.12460135E+01         YZ= -0.41076676E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5926107E-04 Y= -0.5478740E-09 Z=  0.5956717E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162528E+02         XY= -0.29630743E-03         XZ=  0.29391531E-01
                YY= -0.10161934E+02         YZ=  0.29783582E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20628497E-02 Y= -0.14475462E-10 Z= -0.46742673E-07   Total=     0.00206285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12849956E+01         XY=  0.19491104E-01         XZ=  0.18594268E-01
                YY=  0.12460136E+01         YZ= -0.44178065E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1209595E-03 Y= -0.5516305E-09 Z=  0.5956713E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160725E+02         XY=  0.60479526E-03         XZ=  0.30271604E-01
                YY= -0.10161934E+02         YZ=  0.29783562E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18597208E-02 Y= -0.11124234E-10 Z= -0.31751828E-07   Total=     0.00185972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12811571E+01         XY=  0.17571815E-01         XZ=  0.17697111E-01
                YY=  0.12460137E+01         YZ= -0.30010939E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2566753E-03 Y= -0.5536533E-09 Z=  0.5956711E-02  Total=      0.0059622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159368E+02         XY=  0.12833744E-02         XZ=  0.30973479E-01
                YY= -0.10161934E+02         YZ=  0.29783552E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.94218822E-03 Y= -0.47252502E-11 Z= -0.19662946E-07   Total=     0.00094219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12638181E+01         XY=  0.89023885E-02         XZ=  0.10014093E-01
                YY=  0.12460136E+01         YZ= -0.18583217E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2954251E-03 Y= -0.5544479E-09 Z=  0.5956708E-02  Total=      0.0059640
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158981E+02         XY=  0.14771233E-02         XZ=  0.31226463E-01
                YY= -0.10161934E+02         YZ=  0.29783539E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34644435E-03 Y=  0.21704945E-11 Z= -0.28006428E-07   Total=     0.00034644
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12394664E+01         XY= -0.32734247E-02         XZ= -0.15887342E-02
                YY=  0.12460135E+01         YZ= -0.26460874E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2212903E-03 Y= -0.5564707E-09 Z=  0.5956703E-02  Total=      0.0059608
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159722E+02         XY=  0.11064492E-02         XZ=  0.30928736E-01
                YY= -0.10161934E+02         YZ=  0.29783514E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15169058E-02 Y=  0.68208781E-11 Z= -0.46194556E-07   Total=     0.00151691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12173479E+01         XY= -0.14332683E-01         XZ= -0.12712364E-01
                YY=  0.12460135E+01         YZ= -0.43642267E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6139789E-04 Y= -0.5590713E-09 Z=  0.5956697E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161321E+02         XY=  0.30698733E-03         XZ=  0.30188205E-01
                YY= -0.10161934E+02         YZ=  0.29783485E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21196757E-02 Y=  0.75298473E-11 Z= -0.49681939E-07   Total=     0.00211968
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12059574E+01         XY= -0.20028033E-01         XZ= -0.19092259E-01
                YY=  0.12460136E+01         YZ= -0.46936782E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1239867E-03 Y= -0.5607329E-09 Z=  0.5956693E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163175E+02         XY= -0.61993559E-03         XZ=  0.29283504E-01
                YY= -0.10161934E+02         YZ=  0.29783463E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19175682E-02 Y=  0.43972332E-11 Z= -0.33896747E-07   Total=     0.00191757
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12097767E+01         XY= -0.18118394E-01         XZ= -0.18232968E-01
                YY=  0.12460137E+01         YZ= -0.32024575E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2641666E-03 Y= -0.5611663E-09 Z=  0.5956691E-02  Total=      0.0059625
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164577E+02         XY= -0.13208351E-02         XZ=  0.28559179E-01
                YY= -0.10161934E+02         YZ=  0.29783452E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97894326E-03 Y= -0.75674710E-12 Z= -0.21090070E-07   Total=     0.00097894
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12275140E+01         XY= -0.92496733E-02         XZ= -0.10383324E-01
                YY=  0.12460136E+01         YZ= -0.19928346E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3049672E-03 Y= -0.5621055E-09 Z=  0.5956688E-02  Total=      0.0059645
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164985E+02         XY= -0.15248379E-02         XZ=  0.28294505E-01
                YY= -0.10161934E+02         YZ=  0.29783438E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34504314E-03 Y= -0.52495741E-11 Z= -0.29927876E-07   Total=     0.00034504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12525336E+01         XY=  0.32601852E-02         XZ=  0.15285938E-02
                YY=  0.12460135E+01         YZ= -0.28282621E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2296630E-03 Y= -0.5649951E-09 Z=  0.5956683E-02  Total=      0.0059611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164232E+02         XY= -0.11483169E-02         XZ=  0.28595853E-01
                YY= -0.10161934E+02         YZ=  0.29783412E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15517384E-02 Y= -0.67751137E-11 Z= -0.49359336E-07   Total=     0.00155174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12753369E+01         XY=  0.14661803E-01         XZ=  0.12987092E-01
                YY=  0.12460135E+01         YZ= -0.46643952E-06         ZZ=  0.12460125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6579768E-04 Y= -0.5696907E-09 Z=  0.5956676E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162593E+02         XY= -0.32899052E-03         XZ=  0.29354079E-01
                YY= -0.10161934E+02         YZ=  0.29783380E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21777789E-02 Y= -0.44498412E-11 Z= -0.53301360E-07   Total=     0.00217778
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12871675E+01         XY=  0.20577028E-01         XZ=  0.19600220E-01
                YY=  0.12460136E+01         YZ= -0.50366654E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1248715E-03 Y= -0.5724359E-09 Z=  0.5956672E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160686E+02         XY=  0.62435529E-03         XZ=  0.30283934E-01
                YY= -0.10161934E+02         YZ=  0.29783357E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19769667E-02 Y=  0.81024467E-12 Z= -0.36628984E-07   Total=     0.00197697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12833727E+01         XY=  0.18679628E-01         XZ=  0.18782553E-01
                YY=  0.12460137E+01         YZ= -0.34609117E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2696414E-03 Y= -0.5722914E-09 Z=  0.5956669E-02  Total=      0.0059628
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159239E+02         XY=  0.13482048E-02         XZ=  0.31031330E-01
                YY= -0.10161934E+02         YZ=  0.29783344E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10169739E-02 Y=  0.67445789E-11 Z= -0.22804269E-07   Total=     0.00101697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12652314E+01         XY=  0.96090106E-02         XZ=  0.10765054E-01
                YY=  0.12460136E+01         YZ= -0.21541674E-06         ZZ=  0.12460131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3125796E-03 Y= -0.5725804E-09 Z=  0.5956666E-02  Total=      0.0059649
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158809E+02         XY=  0.15628960E-02         XZ=  0.31308148E-01
                YY= -0.10161934E+02         YZ=  0.29783329E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34306624E-03 Y=  0.10811888E-10 Z= -0.31850260E-07   Total=     0.00034307
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12395302E+01         XY= -0.32415061E-02         XZ= -0.14620414E-02
                YY=  0.12460135E+01         YZ= -0.30085489E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2361262E-03 Y= -0.5740974E-09 Z=  0.5956661E-02  Total=      0.0059613
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159574E+02         XY=  0.11806289E-02         XZ=  0.31003281E-01
                YY= -0.10161934E+02         YZ=  0.29783302E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15868311E-02 Y=  0.11362342E-10 Z= -0.52380693E-07   Total=     0.00158683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12160265E+01         XY= -0.14993381E-01         XZ= -0.13263548E-01
                YY=  0.12460135E+01         YZ= -0.49483478E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6824094E-04 Y= -0.5770593E-09 Z=  0.5956654E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161253E+02         XY=  0.34120263E-03         XZ=  0.30227116E-01
                YY= -0.10161934E+02         YZ=  0.29783268E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22367731E-02 Y=  0.83740603E-11 Z= -0.56751212E-07   Total=     0.00223677
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12037445E+01         XY= -0.21134443E-01         XZ= -0.20116097E-01
                YY=  0.12460136E+01         YZ= -0.53615519E-06         ZZ=  0.12460125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1277999E-03 Y= -0.5788653E-09 Z=  0.5956649E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163213E+02         XY= -0.63900159E-03         XZ=  0.29271683E-01
                YY= -0.10161934E+02         YZ=  0.29783243E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20374195E-02 Y=  0.34215749E-11 Z= -0.39203342E-07   Total=     0.00203742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12075118E+01         XY= -0.19250824E-01         XZ= -0.19341602E-01
                YY=  0.12460137E+01         YZ= -0.37039319E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2772427E-03 Y= -0.5793710E-09 Z=  0.5956646E-02  Total=      0.0059631
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164708E+02         XY= -0.13862156E-02         XZ=  0.28500819E-01
                YY= -0.10161934E+02         YZ=  0.29783230E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10556715E-02 Y= -0.10935393E-11 Z= -0.24373205E-07   Total=     0.00105567
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12260640E+01         XY= -0.99746505E-02         XZ= -0.11153036E-01
                YY=  0.12460136E+01         YZ= -0.23030626E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3223529E-03 Y= -0.5803101E-09 Z=  0.5956643E-02  Total=      0.0059654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165159E+02         XY= -0.16117663E-02         XZ=  0.28211650E-01
                YY= -0.10161934E+02         YZ=  0.29783214E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34123176E-03 Y= -0.30775760E-11 Z= -0.33637077E-07   Total=     0.00034123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12524615E+01         XY=  0.32241728E-02         XZ=  0.13955868E-02
                YY=  0.12460134E+01         YZ= -0.31785346E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2447083E-03 Y= -0.5832720E-09 Z=  0.5956637E-02  Total=      0.0059617
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164382E+02         XY= -0.12235434E-02         XZ=  0.28520123E-01
                YY= -0.10161934E+02         YZ=  0.29783185E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16230064E-02 Y= -0.17085971E-11 Z= -0.55239856E-07   Total=     0.00162301
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12766836E+01         XY=  0.15335188E-01         XZ=  0.13547610E-01
                YY=  0.12460135E+01         YZ= -0.52195835E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7268503E-04 Y= -0.5880399E-09 Z=  0.5956630E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162662E+02         XY= -0.36342724E-03         XZ=  0.29314657E-01
                YY= -0.10161934E+02         YZ=  0.29783149E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22975778E-02 Y=  0.22187926E-11 Z= -0.59926320E-07   Total=     0.00229758
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12894313E+01         XY=  0.21708964E-01         XZ=  0.20646254E-01
                YY=  0.12460136E+01         YZ= -0.56620584E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1288939E-03 Y= -0.5908573E-09 Z=  0.5956625E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160646E+02         XY=  0.64446722E-03         XZ=  0.30296384E-01
                YY= -0.10161934E+02         YZ=  0.29783123E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20999346E-02 Y=  0.67166956E-11 Z= -0.41327372E-07   Total=     0.00209993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12856964E+01         XY=  0.19841506E-01         XZ=  0.19918486E-01
                YY=  0.12460137E+01         YZ= -0.39043333E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2831793E-03 Y= -0.5907850E-09 Z=  0.5956622E-02  Total=      0.0059633
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159103E+02         XY=  0.14158946E-02         XZ=  0.31091522E-01
                YY= -0.10161934E+02         YZ=  0.29783109E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10961239E-02 Y=  0.95803194E-11 Z= -0.25376489E-07   Total=     0.00109612
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12667270E+01         XY=  0.10356870E-01         XZ=  0.11557349E-01
                YY=  0.12460136E+01         YZ= -0.23969511E-06         ZZ=  0.12460130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3305895E-03 Y= -0.5905683E-09 Z=  0.5956619E-02  Total=      0.0059658
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158629E+02         XY=  0.16529454E-02         XZ=  0.31393666E-01
                YY= -0.10161934E+02         YZ=  0.29783092E-01         ZZ= -0.12203855E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33837984E-03 Y=  0.94446636E-11 Z= -0.34921500E-07   Total=     0.00033838
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12396187E+01         XY= -0.31972260E-02         XZ= -0.13193021E-02
                YY=  0.12460134E+01         YZ= -0.32988326E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2518121E-03 Y= -0.5920854E-09 Z=  0.5956613E-02  Total=      0.0059619
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159417E+02         XY=  0.12590585E-02         XZ=  0.31081837E-01
                YY= -0.10161934E+02         YZ=  0.29783062E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16590370E-02 Y=  0.64187882E-11 Z= -0.57824743E-07   Total=     0.00165904
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12146619E+01         XY= -0.15675628E-01         XZ= -0.13830453E-01
                YY=  0.12460134E+01         YZ= -0.54631255E-06         ZZ=  0.12460123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7563941E-04 Y= -0.5949028E-09 Z=  0.5956605E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161179E+02         XY=  0.37819497E-03         XZ=  0.30268819E-01
                YY= -0.10161934E+02         YZ=  0.29783024E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23588982E-02 Y=  0.20019738E-11 Z= -0.63084238E-07   Total=     0.00235890
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12014366E+01         XY= -0.22288358E-01         XZ= -0.21181723E-01
                YY=  0.12460136E+01         YZ= -0.59604418E-06         ZZ=  0.12460123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1315310E-03 Y= -0.5980814E-09 Z=  0.5956600E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163251E+02         XY= -0.65765725E-03         XZ=  0.29260496E-01
                YY= -0.10161934E+02         YZ=  0.29782997E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21631444E-02 Y= -0.16666738E-11 Z= -0.43599717E-07   Total=     0.00216314
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12051359E+01         XY= -0.20438752E-01         XZ= -0.20502329E-01
                YY=  0.12460137E+01         YZ= -0.41197247E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2907090E-03 Y= -0.6011155E-09 Z=  0.5956597E-02  Total=      0.0059637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164842E+02         XY= -0.14535472E-02         XZ=  0.28440812E-01
                YY= -0.10161934E+02         YZ=  0.29782982E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11368791E-02 Y= -0.28558349E-11 Z= -0.26591172E-07   Total=     0.00113688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12245293E+01         XY= -0.10741951E-01         XZ= -0.11965288E-01
                YY=  0.12460136E+01         YZ= -0.25127461E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3404191E-03 Y= -0.6035717E-09 Z=  0.5956593E-02  Total=      0.0059663
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165339E+02         XY= -0.17020976E-02         XZ=  0.28125619E-01
                YY= -0.10161934E+02         YZ=  0.29782965E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33606190E-03 Y= -0.10779804E-11 Z= -0.36421548E-07   Total=     0.00033606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12523637E+01         XY=  0.31753248E-02         XZ=  0.12460039E-02
                YY=  0.12460134E+01         YZ= -0.34414301E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2604295E-03 Y= -0.6061001E-09 Z=  0.5956587E-02  Total=      0.0059623
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164539E+02         XY= -0.13021496E-02         XZ=  0.28441035E-01
                YY= -0.10161934E+02         YZ=  0.29782933E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16965900E-02 Y=  0.26878503E-11 Z= -0.60561733E-07   Total=     0.00169659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12780740E+01         XY=  0.16030452E-01         XZ=  0.14124204E-01
                YY=  0.12460134E+01         YZ= -0.57220291E-06         ZZ=  0.12460122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7994701E-04 Y= -0.6059556E-09 Z=  0.5956579E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162735E+02         XY= -0.39973715E-03         XZ=  0.29273131E-01
                YY= -0.10161934E+02         YZ=  0.29782893E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24225290E-02 Y=  0.64906630E-11 Z= -0.66206915E-07   Total=     0.00242253
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12917924E+01         XY=  0.22889582E-01         XZ=  0.21735377E-01
                YY=  0.12460136E+01         YZ= -0.62551008E-06         ZZ=  0.12460123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1330287E-03 Y= -0.6079783E-09 Z=  0.5956573E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160605E+02         XY=  0.66514162E-03         XZ=  0.30308964E-01
                YY= -0.10161934E+02         YZ=  0.29782864E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22289740E-02 Y=  0.83742054E-11 Z= -0.45538444E-07   Total=     0.00222897
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12881348E+01         XY=  0.21060753E-01         XZ=  0.21108610E-01
                YY=  0.12460136E+01         YZ= -0.43020532E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2973207E-03 Y= -0.6079783E-09 Z=  0.5956570E-02  Total=      0.0059640
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158962E+02         XY=  0.14866012E-02         XZ=  0.31154229E-01
                YY= -0.10161934E+02         YZ=  0.29782848E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11799855E-02 Y=  0.73435008E-11 Z= -0.27205186E-07   Total=     0.00117999
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12683117E+01         XY=  0.11149247E-01         XZ=  0.12394689E-01
                YY=  0.12460135E+01         YZ= -0.25698952E-06         ZZ=  0.12460129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3495124E-03 Y= -0.6089897E-09 Z=  0.5956567E-02  Total=      0.0059668
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158440E+02         XY=  0.17475598E-02         XZ=  0.31483338E-01
                YY= -0.10161934E+02         YZ=  0.29782831E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33212505E-03 Y=  0.38581371E-11 Z= -0.37253115E-07   Total=     0.00033213
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12397368E+01         XY= -0.31381269E-02         XZ= -0.11576460E-02
                YY=  0.12460134E+01         YZ= -0.35195766E-06         ZZ=  0.12460125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2684213E-03 Y= -0.6113014E-09 Z=  0.5956560E-02  Total=      0.0059626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159251E+02         XY=  0.13421042E-02         XZ=  0.31164819E-01
                YY= -0.10161934E+02         YZ=  0.29782798E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17334332E-02 Y= -0.39044420E-12 Z= -0.62797736E-07   Total=     0.00173343
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12132559E+01         XY= -0.16378570E-01         XZ= -0.14411894E-01
                YY=  0.12460134E+01         YZ= -0.59335476E-06         ZZ=  0.12460121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8366500E-04 Y= -0.6100011E-09 Z=  0.5956552E-02  Total=      0.0059571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161099E+02         XY=  0.41832295E-03         XZ=  0.30313734E-01
                YY= -0.10161934E+02         YZ=  0.29782756E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24861865E-02 Y= -0.33127727E-11 Z= -0.69111171E-07   Total=     0.00248619
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11990311E+01         XY= -0.23491058E-01         XZ= -0.22290228E-01
                YY=  0.12460135E+01         YZ= -0.65303244E-06         ZZ=  0.12460122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1351297E-03 Y= -0.6136854E-09 Z=  0.5956546E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163287E+02         XY= -0.67565081E-03         XZ=  0.29250259E-01
                YY= -0.10161934E+02         YZ=  0.29782726E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22951124E-02 Y= -0.34609238E-11 Z= -0.47511036E-07   Total=     0.00229511
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12026420E+01         XY= -0.21685669E-01         XZ= -0.21718634E-01
                YY=  0.12460136E+01         YZ= -0.44894192E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3045548E-03 Y= -0.6157081E-09 Z=  0.5956542E-02  Total=      0.0059643
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164981E+02         XY= -0.15227762E-02         XZ=  0.28379272E-01
                YY= -0.10161934E+02         YZ=  0.29782710E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12231204E-02 Y= -0.76484975E-12 Z= -0.28021384E-07   Total=     0.00122312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12228995E+01         XY= -0.11556813E-01         XZ= -0.12825500E-01
                YY=  0.12460135E+01         YZ= -0.26476875E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3592066E-03 Y= -0.6173696E-09 Z=  0.5956539E-02  Total=      0.0059674
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165527E+02         XY= -0.17960349E-02         XZ=  0.28036258E-01
                YY= -0.10161934E+02         YZ=  0.29782691E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32889489E-03 Y=  0.34012101E-11 Z= -0.38385020E-07   Total=     0.00032889
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12522282E+01         XY=  0.31076064E-02         XZ=  0.10734552E-02
                YY=  0.12460133E+01         YZ= -0.36265594E-06         ZZ=  0.12460125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2769205E-03 Y= -0.6201870E-09 Z=  0.5956532E-02  Total=      0.0059630
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164704E+02         XY= -0.13846048E-02         XZ=  0.28358151E-01
                YY= -0.10161934E+02         YZ=  0.29782657E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17718931E-02 Y=  0.68657734E-11 Z= -0.65350718E-07   Total=     0.00177189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12794970E+01         XY=  0.16741963E-01         XZ=  0.14710766E-01
                YY=  0.12460133E+01         YZ= -0.61741570E-06         ZZ=  0.12460120E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8772179E-04 Y= -0.6188867E-09 Z=  0.5956523E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162813E+02         XY= -0.43861102E-03         XZ=  0.29228822E-01
                YY= -0.10161934E+02         YZ=  0.29782614E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25521973E-02 Y=  0.77170241E-11 Z= -0.72230932E-07   Total=     0.00255220
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12942427E+01         XY=  0.24114770E-01         XZ=  0.22862957E-01
                YY=  0.12460135E+01         YZ= -0.68241703E-06         ZZ=  0.12460121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1371109E-03 Y= -0.6214874E-09 Z=  0.5956517E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160564E+02         XY=  0.68555253E-03         XZ=  0.30320841E-01
                YY= -0.10161934E+02         YZ=  0.29782581E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23638841E-02 Y=  0.52585643E-11 Z= -0.49518638E-07   Total=     0.00236388
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12906842E+01         XY=  0.22335467E-01         XZ=  0.22350564E-01
                YY=  0.12460136E+01         YZ= -0.46783741E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3118938E-03 Y= -0.6224265E-09 Z=  0.5956513E-02  Total=      0.0059647
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158816E+02         XY=  0.15594668E-02         XZ=  0.31218571E-01
                YY= -0.10161934E+02         YZ=  0.29782565E-01         ZZ= -0.12203856E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12686012E-02 Y=  0.39442691E-12 Z= -0.28767964E-07   Total=     0.00126860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12699862E+01         XY=  0.11986545E-01         XZ=  0.13277175E-01
                YY=  0.12460135E+01         YZ= -0.27181263E-06         ZZ=  0.12460128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3691888E-03 Y= -0.6229322E-09 Z=  0.5956510E-02  Total=      0.0059679
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158243E+02         XY=  0.18459418E-02         XZ=  0.31576339E-01
                YY= -0.10161934E+02         YZ=  0.29782546E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32406885E-03 Y= -0.47592909E-11 Z= -0.39567734E-07   Total=     0.00032407
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12398889E+01         XY= -0.30620069E-02         XZ= -0.97492464E-03
                YY=  0.12460133E+01         YZ= -0.37389881E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2858181E-03 Y= -0.6249549E-09 Z=  0.5956502E-02  Total=      0.0059634
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159077E+02         XY=  0.14290883E-02         XZ=  0.31251525E-01
                YY= -0.10161934E+02         YZ=  0.29782510E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18096872E-02 Y= -0.78655247E-11 Z= -0.68283807E-07   Total=     0.00180969
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12118149E+01         XY= -0.17099066E-01         XZ= -0.15004493E-01
                YY=  0.12460133E+01         YZ= -0.64525238E-06         ZZ=  0.12460119E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9221001E-04 Y= -0.6257496E-09 Z=  0.5956493E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161013E+02         XY=  0.46104796E-03         XZ=  0.30361316E-01
                YY= -0.10161934E+02         YZ=  0.29782464E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26182988E-02 Y= -0.74947249E-11 Z= -0.76089838E-07   Total=     0.00261830
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11965345E+01         XY= -0.24739339E-01         XZ= -0.23437902E-01
                YY=  0.12460135E+01         YZ= -0.71900551E-06         ZZ=  0.12460120E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1386792E-03 Y= -0.6303007E-09 Z=  0.5956486E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163322E+02         XY= -0.69339804E-03         XZ=  0.29240577E-01
                YY= -0.10161934E+02         YZ=  0.29782430E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24330378E-02 Y= -0.38469641E-11 Z= -0.52485486E-07   Total=     0.00243304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12000355E+01         XY= -0.22988876E-01         XZ= -0.22987134E-01
                YY=  0.12460136E+01         YZ= -0.49594601E-06         ZZ=  0.12460125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3188448E-03 Y= -0.6314566E-09 Z=  0.5956483E-02  Total=      0.0059650
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165124E+02         XY= -0.15942261E-02         XZ=  0.28315930E-01
                YY= -0.10161934E+02         YZ=  0.29782412E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13141733E-02 Y=  0.12921613E-11 Z= -0.30535017E-07   Total=     0.00131417
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12211788E+01         XY= -0.12417138E-01         XZ= -0.13730854E-01
                YY=  0.12460135E+01         YZ= -0.28850086E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3787663E-03 Y= -0.6322512E-09 Z=  0.5956479E-02  Total=      0.0059685
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165723E+02         XY= -0.18938336E-02         XZ=  0.27943394E-01
                YY= -0.10161934E+02         YZ=  0.29782393E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31992066E-03 Y=  0.53619270E-11 Z= -0.41750414E-07   Total=     0.00031992
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12520585E+01         XY=  0.30228122E-02         XZ=  0.88033369E-03
                YY=  0.12460133E+01         YZ= -0.39443668E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2942199E-03 Y= -0.6342740E-09 Z=  0.5956471E-02  Total=      0.0059637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164878E+02         XY= -0.14711014E-02         XZ=  0.28271383E-01
                YY= -0.10161934E+02         YZ=  0.29782355E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18491175E-02 Y=  0.62344599E-11 Z= -0.72142651E-07   Total=     0.00184912
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12809562E+01         XY=  0.17471628E-01         XZ=  0.15309553E-01
                YY=  0.12460133E+01         YZ= -0.68159421E-06         ZZ=  0.12460118E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9603285E-04 Y= -0.6328292E-09 Z=  0.5956462E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162896E+02         XY= -0.48016631E-03         XZ=  0.29181724E-01
                YY= -0.10161934E+02         YZ=  0.29782306E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26868166E-02 Y=  0.32538461E-11 Z= -0.80694484E-07   Total=     0.00268682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12967866E+01         XY=  0.25386737E-01         XZ=  0.24031250E-01
                YY=  0.12460135E+01         YZ= -0.76242221E-06         ZZ=  0.12460119E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1411347E-03 Y= -0.6323957E-09 Z=  0.5956454E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160524E+02         XY=  0.70567162E-03         XZ=  0.30332094E-01
                YY= -0.10161934E+02         YZ=  0.29782270E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25049017E-02 Y= -0.23947092E-11 Z= -0.55899474E-07   Total=     0.00250490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12933490E+01         XY=  0.23667891E-01         XZ=  0.23646352E-01
                YY=  0.12460136E+01         YZ= -0.52819062E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3269095E-03 Y= -0.6344185E-09 Z=  0.5956451E-02  Total=      0.0059654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158666E+02         XY=  0.16345454E-02         XZ=  0.31284693E-01
                YY= -0.10161934E+02         YZ=  0.29782251E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13621314E-02 Y= -0.81788126E-11 Z= -0.32445451E-07   Total=     0.00136213
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12717536E+01         XY=  0.12870277E-01         XZ=  0.14205900E-01
                YY=  0.12460135E+01         YZ= -0.30663071E-06         ZZ=  0.12460127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3896371E-03 Y= -0.6360800E-09 Z=  0.5956447E-02  Total=      0.0059692
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158039E+02         XY=  0.19481835E-02         XZ=  0.31672830E-01
                YY= -0.10161934E+02         YZ=  0.29782231E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31423162E-03 Y= -0.11365129E-10 Z= -0.43920807E-07   Total=     0.00031423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12400747E+01         XY= -0.29690586E-02         XZ= -0.77181961E-03
                YY=  0.12460132E+01         YZ= -0.41508380E-06         ZZ=  0.12460123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3040116E-03 Y= -0.6396920E-09 Z=  0.5956439E-02  Total=      0.0059642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158895E+02         XY=  0.15200561E-02         XZ=  0.31342049E-01
                YY= -0.10161934E+02         YZ=  0.29782191E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18880823E-02 Y= -0.10292904E-10 Z= -0.76014939E-07   Total=     0.00188808
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12103333E+01         XY= -0.17839792E-01         XZ= -0.15611384E-01
                YY=  0.12460132E+01         YZ= -0.71832036E-06         ZZ=  0.12460117E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1012523E-03 Y= -0.6405589E-09 Z=  0.5956428E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160923E+02         XY=  0.50625953E-03         XZ=  0.30411483E-01
                YY= -0.10161934E+02         YZ=  0.29782140E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27557964E-02 Y= -0.51807961E-11 Z= -0.85410193E-07   Total=     0.00275580
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11939361E+01         XY= -0.26038502E-01         XZ= -0.24630431E-01
                YY=  0.12460135E+01         YZ= -0.80704970E-06         ZZ=  0.12460118E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1422526E-03 Y= -0.6399088E-09 Z=  0.5956421E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163358E+02         XY= -0.71126491E-03         XZ=  0.29231099E-01
                YY= -0.10161934E+02         YZ=  0.29782101E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25776838E-02 Y=  0.19228672E-11 Z= -0.59481741E-07   Total=     0.00257768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11973020E+01         XY= -0.24355582E-01         XZ= -0.24315359E-01
                YY=  0.12460136E+01         YZ= -0.56200171E-06         ZZ=  0.12460123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3337141E-03 Y= -0.6401977E-09 Z=  0.5956417E-02  Total=      0.0059658
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165273E+02         XY= -0.16685724E-02         XZ=  0.28250108E-01
                YY= -0.10161934E+02         YZ=  0.29782081E-01         ZZ= -0.12203857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14108457E-02 Y=  0.80413725E-11 Z= -0.34537533E-07   Total=     0.00141085
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12193519E+01         XY= -0.13330560E-01         XZ= -0.14689296E-01
                YY=  0.12460134E+01         YZ= -0.32626177E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3992920E-03 Y= -0.6404867E-09 Z=  0.5956412E-02  Total=      0.0059698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165928E+02         XY= -0.19964622E-02         XZ=  0.27846044E-01
                YY= -0.10161934E+02         YZ=  0.29782059E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30848040E-03 Y=  0.10620696E-10 Z= -0.46287504E-07   Total=     0.00030848
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12518422E+01         XY=  0.29147174E-02         XZ=  0.66006845E-03
                YY=  0.12460132E+01         YZ= -0.43726135E-06         ZZ=  0.12460122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3125613E-03 Y= -0.6433041E-09 Z=  0.5956404E-02  Total=      0.0059646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165061E+02         XY= -0.15628085E-02         XZ=  0.28179529E-01
                YY= -0.10161934E+02         YZ=  0.29782017E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19279228E-02 Y=  0.87114964E-11 Z= -0.80068126E-07   Total=     0.00192792
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12824453E+01         XY=  0.18216230E-01         XZ=  0.15916973E-01
                YY=  0.12460132E+01         YZ= -0.75645811E-06         ZZ=  0.12460116E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1051247E-03 Y= -0.6430874E-09 Z=  0.5956393E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162987E+02         XY= -0.52562535E-03         XZ=  0.29130564E-01
                YY= -0.10161934E+02         YZ=  0.29781963E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28264526E-02 Y=  0.34332813E-11 Z= -0.90164106E-07   Total=     0.00282645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12994253E+01         XY=  0.26706106E-01         XZ=  0.25240543E-01
                YY=  0.12460134E+01         YZ= -0.85189573E-06         ZZ=  0.12460117E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1448776E-03 Y= -0.6430874E-09 Z=  0.5956385E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160487E+02         XY=  0.72438587E-03         XZ=  0.30341544E-01
                YY= -0.10161934E+02         YZ=  0.29781922E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26524767E-02 Y= -0.25062806E-11 Z= -0.62823372E-07   Total=     0.00265248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12961377E+01         XY=  0.25062273E-01         XZ=  0.25000054E-01
                YY=  0.12460136E+01         YZ= -0.59361321E-06         ZZ=  0.12460122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3421942E-03 Y= -0.6447489E-09 Z=  0.5956381E-02  Total=      0.0059662
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158514E+02         XY=  0.17109688E-02         XZ=  0.31351660E-01
                YY= -0.10161934E+02         YZ=  0.29781901E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14612884E-02 Y= -0.60294596E-11 Z= -0.36138191E-07   Total=     0.00146129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12736273E+01         XY=  0.13807175E-01         XZ=  0.15187714E-01
                YY=  0.12460134E+01         YZ= -0.34150449E-06         ZZ=  0.12460126E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4107474E-03 Y= -0.6459047E-09 Z=  0.5956376E-02  Total=      0.0059705
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157828E+02         XY=  0.20537349E-02         XZ=  0.31772208E-01
                YY= -0.10161934E+02         YZ=  0.29781879E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30181355E-03 Y= -0.50951688E-11 Z= -0.48146844E-07   Total=     0.00030181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12403093E+01         XY= -0.28517248E-02         XZ= -0.54029049E-03
                YY=  0.12460132E+01         YZ= -0.45496212E-06         ZZ=  0.12460121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3229559E-03 Y= -0.6497335E-09 Z=  0.5956367E-02  Total=      0.0059651
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158706E+02         XY=  0.16147777E-02         XZ=  0.31436133E-01
                YY= -0.10161934E+02         YZ=  0.29781835E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19678983E-02 Y=  0.34884926E-12 Z= -0.83871726E-07   Total=     0.00196790
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12088249E+01         XY= -0.18593944E-01         XZ= -0.16224943E-01
                YY=  0.12460132E+01         YZ= -0.79246785E-06         ZZ=  0.12460115E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1107985E-03 Y= -0.6488666E-09 Z=  0.5956356E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160828E+02         XY=  0.55399053E-03         XZ=  0.30464280E-01
                YY= -0.10161934E+02         YZ=  0.29781778E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28981448E-02 Y=  0.83079499E-11 Z= -0.95033125E-07   Total=     0.00289814
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11912460E+01         XY= -0.27383500E-01         XZ= -0.25861749E-01
                YY=  0.12460134E+01         YZ= -0.89786124E-06         ZZ=  0.12460115E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1458077E-03 Y= -0.6469161E-09 Z=  0.5956347E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163394E+02         XY= -0.72904046E-03         XZ=  0.29222088E-01
                YY= -0.10161934E+02         YZ=  0.29781734E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27287236E-02 Y=  0.15613051E-10 Z= -0.66556931E-07   Total=     0.00272872
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11944477E+01         XY= -0.25782701E-01         XZ= -0.25699239E-01
                YY=  0.12460135E+01         YZ= -0.62873916E-06         ZZ=  0.12460121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3491011E-03 Y= -0.6464104E-09 Z=  0.5956343E-02  Total=      0.0059666
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165427E+02         XY= -0.17455073E-02         XZ=  0.28182204E-01
                YY= -0.10161934E+02         YZ=  0.29781712E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15129696E-02 Y=  0.19334107E-10 Z= -0.38268377E-07   Total=     0.00151297
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12174219E+01         XY= -0.14295491E-01         XZ= -0.15698532E-01
                YY=  0.12460134E+01         YZ= -0.36142008E-06         ZZ=  0.12460125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4207135E-03 Y= -0.6451101E-09 Z=  0.5956338E-02  Total=      0.0059712
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166143E+02         XY= -0.21035694E-02         XZ=  0.27744668E-01
                YY= -0.10161934E+02         YZ=  0.29781688E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29466291E-03 Y=  0.18096314E-10 Z= -0.50599161E-07   Total=     0.00029466
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12515810E+01         XY=  0.27841612E-02         XZ=  0.41373225E-03
                YY=  0.12460131E+01         YZ= -0.47793965E-06         ZZ=  0.12460120E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3318703E-03 Y= -0.6477108E-09 Z=  0.5956329E-02  Total=      0.0059656
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165254E+02         XY= -0.16593537E-02         XZ=  0.28083072E-01
                YY= -0.10161934E+02         YZ=  0.29781642E-01         ZZ= -0.12203858E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20083788E-02 Y=  0.12700550E-10 Z= -0.88293223E-07   Total=     0.00200838
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12839656E+01         XY=  0.18976429E-01         XZ=  0.16533373E-01
                YY=  0.12460131E+01         YZ= -0.83414229E-06         ZZ=  0.12460114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1149195E-03 Y= -0.6466994E-09 Z=  0.5956317E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163085E+02         XY= -0.57459935E-03         XZ=  0.29075821E-01
                YY= -0.10161934E+02         YZ=  0.29781582E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29711638E-02 Y=  0.57655484E-11 Z= -0.10046950E-06   Total=     0.00297116
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13021598E+01         XY=  0.28073429E-01         XZ=  0.26490600E-01
                YY=  0.12460134E+01         YZ= -0.94924966E-06         ZZ=  0.12460114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1484184E-03 Y= -0.6455435E-09 Z=  0.5956308E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160452E+02         XY=  0.74208980E-03         XZ=  0.30349639E-01
                YY= -0.10161934E+02         YZ=  0.29781535E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28066086E-02 Y=  0.55037567E-12 Z= -0.70730430E-07   Total=     0.00280661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12990502E+01         XY=  0.26518608E-01         XZ=  0.26410590E-01
                YY=  0.12460135E+01         YZ= -0.66829994E-06         ZZ=  0.12460120E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3578209E-03 Y= -0.6475663E-09 Z=  0.5956303E-02  Total=      0.0059670
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158358E+02         XY=  0.17891025E-02         XZ=  0.31419842E-01
                YY= -0.10161934E+02         YZ=  0.29781512E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15659381E-02 Y= -0.51003804E-12 Z= -0.40740922E-07   Total=     0.00156594
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12756048E+01         XY=  0.14795971E-01         XZ=  0.16220236E-01
                YY=  0.12460134E+01         YZ= -0.38494910E-06         ZZ=  0.12460124E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4325746E-03 Y= -0.6477108E-09 Z=  0.5956298E-02  Total=      0.0059720
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157610E+02         XY=  0.21628711E-02         XZ=  0.31874707E-01
                YY= -0.10161934E+02         YZ=  0.29781487E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28713670E-03 Y=  0.31054461E-11 Z= -0.53434082E-07   Total=     0.00028714
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12405865E+01         XY= -0.27130486E-02         XZ= -0.28431443E-03
                YY=  0.12460131E+01         YZ= -0.50485184E-06         ZZ=  0.12460119E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3426732E-03 Y= -0.6490111E-09 Z=  0.5956288E-02  Total=      0.0059661
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158509E+02         XY=  0.17133641E-02         XZ=  0.31533818E-01
                YY= -0.10161934E+02         YZ=  0.29781438E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20496372E-02 Y=  0.97812692E-11 Z= -0.93222779E-07   Total=     0.00204964
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12072801E+01         XY= -0.19366265E-01         XZ= -0.16850536E-01
                YY=  0.12460131E+01         YZ= -0.88074463E-06         ZZ=  0.12460112E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1208268E-03 Y= -0.6471328E-09 Z=  0.5956275E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160728E+02         XY=  0.60413203E-03         XZ=  0.30519509E-01
                YY= -0.10161934E+02         YZ=  0.29781374E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30459379E-02 Y=  0.16505255E-10 Z= -0.10643156E-06   Total=     0.00304594
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11884530E+01         XY= -0.28779942E-01         XZ= -0.27137763E-01
                YY=  0.12460133E+01         YZ= -0.10054932E-05         ZZ=  0.12460112E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1494124E-03 Y= -0.6465549E-09 Z=  0.5956265E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163430E+02         XY= -0.74706379E-03         XZ=  0.29213110E-01
                YY= -0.10161934E+02         YZ=  0.29781325E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28866907E-02 Y=  0.20233569E-10 Z= -0.75221237E-07   Total=     0.00288669
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11914624E+01         XY= -0.27275274E-01         XZ= -0.27143871E-01
                YY=  0.12460135E+01         YZ= -0.71056695E-06         ZZ=  0.12460119E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3651087E-03 Y= -0.6490111E-09 Z=  0.5956260E-02  Total=      0.0059674
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165587E+02         XY= -0.18255453E-02         XZ=  0.28111612E-01
                YY= -0.10161934E+02         YZ=  0.29781299E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16208493E-02 Y=  0.19259395E-10 Z= -0.43206229E-07   Total=     0.00162085
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12153832E+01         XY= -0.15314806E-01         XZ= -0.16761380E-01
                YY=  0.12460133E+01         YZ= -0.40807694E-06         ZZ=  0.12460123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4431454E-03 Y= -0.6495168E-09 Z=  0.5956255E-02  Total=      0.0059727
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166367E+02         XY= -0.22157290E-02         XZ=  0.27638606E-01
                YY= -0.10161934E+02         YZ=  0.29781273E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27851937E-03 Y=  0.13967135E-10 Z= -0.56051765E-07   Total=     0.00027852
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12512758E+01         XY=  0.26316268E-02         XZ=  0.14188064E-03
                YY=  0.12460130E+01         YZ= -0.52949381E-06         ZZ=  0.12460118E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3522433E-03 Y= -0.6479997E-09 Z=  0.5956245E-02  Total=      0.0059667
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165458E+02         XY= -0.17612185E-02         XZ=  0.27981447E-01
                YY= -0.10161934E+02         YZ=  0.29781222E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20909288E-02 Y=  0.66366517E-11 Z= -0.97953066E-07   Total=     0.00209093
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12855254E+01         XY=  0.19756414E-01         XZ=  0.17162998E-01
                YY=  0.12460130E+01         YZ= -0.92546500E-06         ZZ=  0.12460111E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1254658E-03 Y= -0.6461215E-09 Z=  0.5956231E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163191E+02         XY= -0.62733105E-03         XZ=  0.29017171E-01
                YY= -0.10161934E+02         YZ=  0.29781154E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31217149E-02 Y=  0.39798873E-12 Z= -0.11235775E-06   Total=     0.00312171
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13050047E+01         XY=  0.29495931E-01         XZ=  0.27788735E-01
                YY=  0.12460133E+01         YZ= -0.10616218E-05         ZZ=  0.12460111E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1517769E-03 Y= -0.6446767E-09 Z=  0.5956221E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160418E+02         XY=  0.75888253E-03         XZ=  0.30356401E-01
                YY= -0.10161934E+02         YZ=  0.29781102E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29682238E-02 Y= -0.21811859E-11 Z= -0.79862087E-07   Total=     0.00296822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13021042E+01         XY=  0.28045650E-01         XZ=  0.27886937E-01
                YY=  0.12460135E+01         YZ= -0.75460386E-06         ZZ=  0.12460118E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3738841E-03 Y= -0.6469161E-09 Z=  0.5956215E-02  Total=      0.0059679
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158197E+02         XY=  0.18694183E-02         XZ=  0.31489651E-01
                YY= -0.10161934E+02         YZ=  0.29781075E-01         ZZ= -0.12203859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16769701E-02 Y= -0.23030885E-12 Z= -0.46020495E-07   Total=     0.00167697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12777029E+01         XY=  0.15845071E-01         XZ=  0.17312315E-01
                YY=  0.12460133E+01         YZ= -0.43483085E-06         ZZ=  0.12460122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4552784E-03 Y= -0.6487221E-09 Z=  0.5956210E-02  Total=      0.0059736
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157383E+02         XY=  0.22763901E-02         XZ=  0.31981088E-01
                YY= -0.10161934E+02         YZ=  0.29781047E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26952680E-03 Y=  0.50756331E-11 Z= -0.59278479E-07   Total=     0.00026953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12409192E+01         XY= -0.25466591E-02         XZ=  0.31566585E-05
                YY=  0.12460130E+01         YZ= -0.56005618E-06         ZZ=  0.12460117E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3633669E-03 Y= -0.6490111E-09 Z=  0.5956199E-02  Total=      0.0059673
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158302E+02         XY=  0.18168325E-02         XZ=  0.31636113E-01
                YY= -0.10161934E+02         YZ=  0.29780993E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21329486E-02 Y=  0.11098104E-10 Z= -0.10355431E-06   Total=     0.00213295
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12057056E+01         XY= -0.20153443E-01         XZ= -0.17484032E-01
                YY=  0.12460130E+01         YZ= -0.97835164E-06         ZZ=  0.12460109E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1315574E-03 Y= -0.6485054E-09 Z=  0.5956185E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160620E+02         XY=  0.65778493E-03         XZ=  0.30578294E-01
                YY= -0.10161934E+02         YZ=  0.29780922E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31991654E-02 Y=  0.14963702E-10 Z= -0.11924163E-06   Total=     0.00319917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11855573E+01         XY= -0.30227732E-01         XZ= -0.28457596E-01
                YY=  0.12460133E+01         YZ= -0.11265427E-05         ZZ=  0.12460109E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1528553E-03 Y= -0.6485777E-09 Z=  0.5956174E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163465E+02         XY= -0.76427841E-03         XZ=  0.29205275E-01
                YY= -0.10161934E+02         YZ=  0.29780866E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30518517E-02 Y=  0.14867956E-10 Z= -0.85265893E-07   Total=     0.00305185
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11883412E+01         XY= -0.28835820E-01         XZ= -0.28651237E-01
                YY=  0.12460134E+01         YZ= -0.80551918E-06         ZZ=  0.12460116E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3815533E-03 Y= -0.6507449E-09 Z=  0.5956168E-02  Total=      0.0059684
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165752E+02         XY= -0.19077682E-02         XZ=  0.28039313E-01
                YY= -0.10161934E+02         YZ=  0.29780837E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17349195E-02 Y=  0.10858168E-10 Z= -0.49230077E-07   Total=     0.00173492
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12132274E+01         XY= -0.16392613E-01         XZ= -0.17881825E-01
                YY=  0.12460133E+01         YZ= -0.46506357E-06         ZZ=  0.12460121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4664417E-03 Y= -0.6506004E-09 Z=  0.5956162E-02  Total=      0.0059744
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166600E+02         XY= -0.23322104E-02         XZ=  0.27528645E-01
                YY= -0.10161934E+02         YZ=  0.29780808E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25955680E-03 Y=  0.47518271E-11 Z= -0.62578384E-07   Total=     0.00025956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12509173E+01         XY=  0.24524564E-02         XZ= -0.16049643E-03
                YY=  0.12460130E+01         YZ= -0.59123800E-06         ZZ=  0.12460116E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3735735E-03 Y= -0.6503837E-09 Z=  0.5956151E-02  Total=      0.0059679
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165672E+02         XY= -0.18678694E-02         XZ=  0.27875218E-01
                YY= -0.10161934E+02         YZ=  0.29780751E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21750971E-02 Y= -0.75032342E-12 Z= -0.10905466E-06   Total=     0.00217510
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12871158E+01         XY=  0.20551689E-01         XZ=  0.17800606E-01
                YY=  0.12460129E+01         YZ= -0.10304215E-05         ZZ=  0.12460107E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1366933E-03 Y= -0.6513950E-09 Z=  0.5956135E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163303E+02         XY= -0.68346834E-03         XZ=  0.28954957E-01
                YY= -0.10161934E+02         YZ=  0.29780675E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32776757E-02 Y= -0.33264801E-11 Z= -0.12592822E-06   Total=     0.00327768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13079518E+01         XY=  0.30969547E-01         XZ=  0.29129942E-01
                YY=  0.12460132E+01         YZ= -0.11898754E-05         ZZ=  0.12460107E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1549916E-03 Y= -0.6518285E-09 Z=  0.5956124E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160386E+02         XY=  0.77495577E-03         XZ=  0.30361975E-01
                YY= -0.10161934E+02         YZ=  0.29780616E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31369300E-02 Y= -0.20813348E-11 Z= -0.90378930E-07   Total=     0.00313693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13052922E+01         XY=  0.29639693E-01         XZ=  0.29424497E-01
                YY=  0.12460134E+01         YZ= -0.85397307E-06         ZZ=  0.12460115E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3903932E-03 Y= -0.6551516E-09 Z=  0.5956117E-02  Total=      0.0059689
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158032E+02         XY=  0.19519640E-02         XZ=  0.31561049E-01
                YY= -0.10161934E+02         YZ=  0.29780585E-01         ZZ= -0.12203860E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17940116E-02 Y=  0.20974601E-11 Z= -0.52120720E-07   Total=     0.00179401
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12799145E+01         XY=  0.16950953E-01         XZ=  0.18459807E-01
                YY=  0.12460132E+01         YZ= -0.49245051E-06         ZZ=  0.12460120E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4788417E-03 Y= -0.6571021E-09 Z=  0.5956111E-02  Total=      0.0059753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157148E+02         XY=  0.23942068E-02         XZ=  0.32091164E-01
                YY= -0.10161934E+02         YZ=  0.29780555E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24933811E-03 Y=  0.70159456E-11 Z= -0.65702030E-07   Total=     0.00024934
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12413005E+01         XY= -0.23559036E-02         XZ=  0.31854645E-03
                YY=  0.12460129E+01         YZ= -0.62073411E-06         ZZ=  0.12460115E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3849962E-03 Y= -0.6561629E-09 Z=  0.5956099E-02  Total=      0.0059685
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158086E+02         XY=  0.19249788E-02         XZ=  0.31742709E-01
                YY= -0.10161934E+02         YZ=  0.29780495E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22181377E-02 Y=  0.10236929E-10 Z= -0.11464195E-06   Total=     0.00221814
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12040956E+01         XY= -0.20958364E-01         XZ= -0.18128148E-01
                YY=  0.12460129E+01         YZ= -0.10831223E-05         ZZ=  0.12460106E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1429311E-03 Y= -0.6545736E-09 Z=  0.5956083E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160507E+02         XY=  0.71465351E-03         XZ=  0.30640250E-01
                YY= -0.10161934E+02         YZ=  0.29780415E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33580263E-02 Y=  0.10214508E-10 Z= -0.13287053E-06   Total=     0.00335803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11825551E+01         XY= -0.31728750E-01         XZ= -0.29822668E-01
                YY=  0.12460132E+01         YZ= -0.12553575E-05         ZZ=  0.12460106E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1562040E-03 Y= -0.6537790E-09 Z=  0.5956071E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163498E+02         XY= -0.78102209E-03         XZ=  0.29198174E-01
                YY= -0.10161934E+02         YZ=  0.29780352E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32242341E-02 Y=  0.69704912E-11 Z= -0.95671960E-07   Total=     0.00322423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11850836E+01         XY= -0.30464597E-01         XZ= -0.30221004E-01
                YY=  0.12460134E+01         YZ= -0.90390917E-06         ZZ=  0.12460114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3984967E-03 Y= -0.6561629E-09 Z=  0.5956064E-02  Total=      0.0059694
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165921E+02         XY= -0.19924857E-02         XZ=  0.27964955E-01
                YY= -0.10161934E+02         YZ=  0.29780320E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18549927E-02 Y=  0.20121122E-11 Z= -0.54969866E-07   Total=     0.00185499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12109582E+01         XY= -0.17527141E-01         XZ= -0.19057516E-01
                YY=  0.12460132E+01         YZ= -0.51937176E-06         ZZ=  0.12460119E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4906426E-03 Y= -0.6579690E-09 Z=  0.5956058E-02  Total=      0.0059762
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166843E+02         XY= -0.24532147E-02         XZ=  0.27414565E-01
                YY= -0.10161934E+02         YZ=  0.29780288E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23817665E-03 Y= -0.24428082E-11 Z= -0.68660724E-07   Total=     0.00023818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12505131E+01         XY=  0.22504432E-02         XZ= -0.48912862E-03
                YY=  0.12460129E+01         YZ= -0.64876912E-06         ZZ=  0.12460113E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3958648E-03 Y= -0.6589803E-09 Z=  0.5956045E-02  Total=      0.0059692
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165895E+02         XY= -0.19793261E-02         XZ=  0.27764366E-01
                YY= -0.10161934E+02         YZ=  0.29780225E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22614470E-02 Y= -0.45438567E-11 Z= -0.12016164E-06   Total=     0.00226145
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12887474E+01         XY=  0.21367578E-01         XZ=  0.18451876E-01
                YY=  0.12460128E+01         YZ= -0.11354000E-05         ZZ=  0.12460104E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1485601E-03 Y= -0.6597750E-09 Z=  0.5956029E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163422E+02         XY= -0.74280261E-03         XZ=  0.28889406E-01
                YY= -0.10161934E+02         YZ=  0.29780141E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34396778E-02 Y= -0.36668300E-11 Z= -0.13996713E-06   Total=     0.00343968
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13110130E+01         XY=  0.32500245E-01         XZ=  0.30520461E-01
                YY=  0.12460131E+01         YZ= -0.13225275E-05         ZZ=  0.12460104E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1581516E-03 Y= -0.6600639E-09 Z=  0.5956015E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160355E+02         XY=  0.79075592E-03         XZ=  0.30366835E-01
                YY= -0.10161934E+02         YZ=  0.29780075E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33133151E-02 Y= -0.65434944E-12 Z= -0.10131793E-06   Total=     0.00331332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13086253E+01         XY=  0.31306290E-01         XZ=  0.31029073E-01
                YY=  0.12460134E+01         YZ= -0.95732029E-06         ZZ=  0.12460112E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4074787E-03 Y= -0.6644706E-09 Z=  0.5956008E-02  Total=      0.0059699
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157862E+02         XY=  0.20373918E-02         XZ=  0.31634733E-01
                YY= -0.10161934E+02         YZ=  0.29780040E-01         ZZ= -0.12203861E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19175041E-02 Y=  0.26561608E-11 Z= -0.58329639E-07   Total=     0.00191750
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12822480E+01         XY=  0.18117788E-01         XZ=  0.19667142E-01
                YY=  0.12460132E+01         YZ= -0.55111190E-06         ZZ=  0.12460118E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5034226E-03 Y= -0.6664934E-09 Z=  0.5956002E-02  Total=      0.0059772
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156902E+02         XY=  0.25171111E-02         XZ=  0.32205779E-01
                YY= -0.10161934E+02         YZ=  0.29780006E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22634781E-03 Y=  0.43668859E-11 Z= -0.72308765E-07   Total=     0.00022635
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12417348E+01         XY= -0.21386768E-02         XZ=  0.66421891E-03
                YY=  0.12460128E+01         YZ= -0.68318095E-06         ZZ=  0.12460112E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4077284E-03 Y= -0.6659154E-09 Z=  0.5955988E-02  Total=      0.0059699
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157859E+02         XY=  0.20386399E-02         XZ=  0.31854510E-01
                YY= -0.10161934E+02         YZ=  0.29779940E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23052305E-02 Y=  0.34522896E-11 Z= -0.12652942E-06   Total=     0.00230523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12024496E+01         XY= -0.21781272E-01         XZ= -0.18782935E-01
                YY=  0.12460128E+01         YZ= -0.11954993E-05         ZZ=  0.12460102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1551051E-03 Y= -0.6662766E-09 Z=  0.5955971E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160385E+02         XY=  0.77552341E-03         XZ=  0.30706236E-01
                YY= -0.10161934E+02         YZ=  0.29779852E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35227833E-02 Y=  0.23797827E-12 Z= -0.14788667E-06   Total=     0.00352278
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11794415E+01         XY= -0.33285478E-01         XZ= -0.31235414E-01
                YY=  0.12460131E+01         YZ= -0.13973228E-05         ZZ=  0.12460102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1593298E-03 Y= -0.6684439E-09 Z=  0.5955957E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163530E+02         XY= -0.79665093E-03         XZ=  0.29192527E-01
                YY= -0.10161934E+02         YZ=  0.29779781E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34042927E-02 Y= -0.37936317E-11 Z= -0.10749765E-06   Total=     0.00340429
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11816808E+01         XY= -0.32165904E-01         XZ= -0.31857644E-01
                YY=  0.12460133E+01         YZ= -0.10157355E-05         ZZ=  0.12460111E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4158527E-03 Y= -0.6731395E-09 Z=  0.5955949E-02  Total=      0.0059704
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166095E+02         XY= -0.20792655E-02         XZ=  0.27889034E-01
                YY= -0.10161933E+02         YZ=  0.29779744E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19816487E-02 Y= -0.67611889E-11 Z= -0.61828938E-07   Total=     0.00198165
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12085646E+01         XY= -0.18723866E-01         XZ= -0.20294351E-01
                YY=  0.12460131E+01         YZ= -0.58425348E-06         ZZ=  0.12460117E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5157121E-03 Y= -0.6745121E-09 Z=  0.5955942E-02  Total=      0.0059782
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167094E+02         XY= -0.25785624E-02         XZ=  0.27296588E-01
                YY= -0.10161934E+02         YZ=  0.29779709E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21375417E-03 Y= -0.73226867E-11 Z= -0.75860204E-07   Total=     0.00021375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12500514E+01         XY=  0.20196842E-02         XZ= -0.85054702E-03
                YY=  0.12460127E+01         YZ= -0.71683432E-06         ZZ=  0.12460111E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4191331E-03 Y= -0.6750178E-09 Z=  0.5955928E-02  Total=      0.0059707
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166128E+02         XY= -0.20956675E-02         XZ=  0.27648825E-01
                YY= -0.10161934E+02         YZ=  0.29779640E-01         ZZ= -0.12203862E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23493908E-02 Y= -0.53325371E-11 Z= -0.13281035E-06   Total=     0.00234939
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12904091E+01         XY=  0.22198526E-01         XZ=  0.19110520E-01
                YY=  0.12460127E+01         YZ= -0.12549184E-05         ZZ=  0.12460100E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1611280E-03 Y= -0.6758124E-09 Z=  0.5955910E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163548E+02         XY= -0.80564189E-03         XZ=  0.28820191E-01
                YY= -0.10161934E+02         YZ=  0.29779547E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36072455E-02 Y= -0.18967513E-11 Z= -0.15581926E-06   Total=     0.00360725
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13141795E+01         XY=  0.34083531E-01         XZ=  0.31955096E-01
                YY=  0.12460130E+01         YZ= -0.14722922E-05         ZZ=  0.12460100E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1611615E-03 Y= -0.6755957E-09 Z=  0.5955895E-02  Total=      0.0059581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160325E+02         XY=  0.80580547E-03         XZ=  0.30370458E-01
                YY= -0.10161933E+02         YZ=  0.29779472E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34970729E-02 Y=  0.11931931E-11 Z= -0.11371064E-06   Total=     0.00349707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13120977E+01         XY=  0.33042550E-01         XZ=  0.32697248E-01
                YY=  0.12460133E+01         YZ= -0.10743973E-05         ZZ=  0.12460109E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4250273E-03 Y= -0.6797857E-09 Z=  0.5955887E-02  Total=      0.0059710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157686E+02         XY=  0.21251343E-02         XZ=  0.31710070E-01
                YY= -0.10161933E+02         YZ=  0.29779433E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20473395E-02 Y=  0.23651330E-11 Z= -0.65339419E-07   Total=     0.00204734
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12847014E+01         XY=  0.19344555E-01         XZ=  0.20933063E-01
                YY=  0.12460131E+01         YZ= -0.61734549E-06         ZZ=  0.12460115E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5289066E-03 Y= -0.6815917E-09 Z=  0.5955880E-02  Total=      0.0059793
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156648E+02         XY=  0.26445312E-02         XZ=  0.32324292E-01
                YY= -0.10161934E+02         YZ=  0.29779396E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20047254E-03 Y=  0.10610415E-11 Z= -0.79526320E-07   Total=     0.00020047
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12422236E+01         XY= -0.18941910E-02         XZ=  0.10410673E-02
                YY=  0.12460127E+01         YZ= -0.75140300E-06         ZZ=  0.12460109E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4314631E-03 Y= -0.6807248E-09 Z=  0.5955865E-02  Total=      0.0059715
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157622E+02         XY=  0.21573133E-02         XZ=  0.31970954E-01
                YY= -0.10161934E+02         YZ=  0.29779323E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23939930E-02 Y= -0.19698689E-11 Z= -0.13947613E-06   Total=     0.00239399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12007721E+01         XY= -0.22619956E-01         XZ= -0.19445752E-01
                YY=  0.12460126E+01         YZ= -0.13178718E-05         ZZ=  0.12460098E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1680028E-03 Y= -0.6806526E-09 Z=  0.5955845E-02  Total=      0.0059582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160257E+02         XY=  0.84001190E-03         XZ=  0.30775830E-01
                YY= -0.10161934E+02         YZ=  0.29779225E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36931161E-02 Y= -0.50288659E-11 Z= -0.16440913E-06   Total=     0.00369312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11762225E+01         XY= -0.34894890E-01         XZ= -0.32692138E-01
                YY=  0.12460130E+01         YZ= -0.15534800E-05         ZZ=  0.12460097E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1622812E-03 Y= -0.6822419E-09 Z=  0.5955830E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163560E+02         XY= -0.81140785E-03         XZ=  0.29188080E-01
                YY= -0.10161933E+02         YZ=  0.29779146E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35916894E-02 Y= -0.63042373E-11 Z= -0.12069322E-06   Total=     0.00359169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11781394E+01         XY= -0.33936547E-01         XZ= -0.33557179E-01
                YY=  0.12460132E+01         YZ= -0.11404352E-05         ZZ=  0.12460107E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4336432E-03 Y= -0.6889602E-09 Z=  0.5955821E-02  Total=      0.0059716
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166273E+02         XY= -0.21682178E-02         XZ=  0.27811461E-01
                YY= -0.10161933E+02         YZ=  0.29779105E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21145851E-02 Y= -0.47811256E-11 Z= -0.69614231E-07   Total=     0.00211459
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12060523E+01         XY= -0.19979934E-01         XZ= -0.21588724E-01
                YY=  0.12460130E+01         YZ= -0.65779598E-06         ZZ=  0.12460114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5416504E-03 Y= -0.6929335E-09 Z=  0.5955814E-02  Total=      0.0059804
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167353E+02         XY= -0.27082540E-02         XZ=  0.27174761E-01
                YY= -0.10161933E+02         YZ=  0.29779066E-01         ZZ= -0.12203863E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18652950E-03 Y= -0.77780065E-12 Z= -0.83997810E-07   Total=     0.00018653
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12495367E+01         XY=  0.17624484E-02         XZ= -0.12418990E-02
                YY=  0.12460126E+01         YZ= -0.79366766E-06         ZZ=  0.12460107E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4433620E-03 Y= -0.6930780E-09 Z=  0.5955798E-02  Total=      0.0059723
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166370E+02         XY= -0.22168119E-02         XZ=  0.27528744E-01
                YY= -0.10161934E+02         YZ=  0.29778989E-01         ZZ= -0.12203864E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24391078E-02 Y=  0.41609824E-11 Z= -0.14706933E-06   Total=     0.00243911
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12921043E+01         XY=  0.23046229E-01         XZ=  0.19778565E-01
                YY=  0.12460126E+01         YZ= -0.13895659E-05         ZZ=  0.12460096E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1743683E-03 Y= -0.6932225E-09 Z=  0.5955777E-02  Total=      0.0059583
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163680E+02         XY= -0.87184365E-03         XZ=  0.28747529E-01
                YY= -0.10161934E+02         YZ=  0.29778885E-01         ZZ= -0.12203864E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37805136E-02 Y=  0.79768797E-11 Z= -0.17397352E-06   Total=     0.00378051
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13174536E+01         XY=  0.35720677E-01         XZ=  0.33435175E-01
                YY=  0.12460129E+01         YZ= -0.16437418E-05         ZZ=  0.12460095E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1640595E-03 Y= -0.6940893E-09 Z=  0.5955761E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160296E+02         XY=  0.82029531E-03         XZ=  0.30373105E-01
                YY= -0.10161933E+02         YZ=  0.29778801E-01         ZZ= -0.12203864E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36883052E-02 Y=  0.90824924E-11 Z= -0.12849519E-06   Total=     0.00368831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13157113E+01         XY=  0.34849434E-01         XZ=  0.34429798E-01
                YY=  0.12460132E+01         YZ= -0.12140246E-05         ZZ=  0.12460105E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4430846E-03 Y= -0.6984238E-09 Z=  0.5955752E-02  Total=      0.0059722
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157506E+02         XY=  0.22154210E-02         XZ=  0.31787348E-01
                YY= -0.10161933E+02         YZ=  0.29778757E-01         ZZ= -0.12203864E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21835795E-02 Y=  0.71476505E-11 Z= -0.74449152E-07   Total=     0.00218358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12872758E+01         XY=  0.20631836E-01         XZ=  0.22257812E-01
                YY=  0.12460130E+01         YZ= -0.70337979E-06         ZZ=  0.12460112E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5553439E-03 Y= -0.7000131E-09 Z=  0.5955744E-02  Total=      0.0059816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156383E+02         XY=  0.27767176E-02         XZ=  0.32446995E-01
                YY= -0.10161933E+02         YZ=  0.29778716E-01         ZZ= -0.12203864E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17171947E-03 Y=  0.33008537E-11 Z= -0.88882663E-07   Total=     0.00017172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12427667E+01         XY= -0.16225138E-02         XZ=  0.14486245E-02
                YY=  0.12460125E+01         YZ= -0.83978894E-06         ZZ=  0.12460106E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4562480E-03 Y= -0.6997241E-09 Z=  0.5955727E-02  Total=      0.0059732
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157374E+02         XY=  0.22812381E-02         XZ=  0.32092304E-01
                YY= -0.10161934E+02         YZ=  0.29778635E-01         ZZ= -0.12203864E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24845385E-02 Y= -0.36629198E-12 Z= -0.15510500E-06   Total=     0.00248454
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11990608E+01         XY= -0.23475487E-01         XZ= -0.20118041E-01
                YY=  0.12460125E+01         YZ= -0.14655301E-05         ZZ=  0.12460094E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1816600E-03 Y= -0.6993629E-09 Z=  0.5955705E-02  Total=      0.0059585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160120E+02         XY=  0.90829808E-03         XZ=  0.30849224E-01
                YY= -0.10161933E+02         YZ=  0.29778525E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38692660E-02 Y= -0.17753125E-11 Z= -0.18402939E-06   Total=     0.00386927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11728936E+01         XY= -0.36559265E-01         XZ= -0.34195416E-01
                YY=  0.12460129E+01         YZ= -0.17388380E-05         ZZ=  0.12460092E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1650449E-03 Y= -0.7003021E-09 Z=  0.5955688E-02  Total=      0.0059580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163587E+02         XY= -0.82522670E-03         XZ=  0.29184903E-01
                YY= -0.10161933E+02         YZ=  0.29778436E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37867774E-02 Y=  0.13701621E-12 Z= -0.13671628E-06   Total=     0.00378678
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11744526E+01         XY= -0.35779861E-01         XZ= -0.35323164E-01
                YY=  0.12460132E+01         YZ= -0.12917781E-05         ZZ=  0.12460103E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4518853E-03 Y= -0.7047810E-09 Z=  0.5955678E-02  Total=      0.0059728
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166456E+02         XY= -0.22594286E-02         XZ=  0.27732146E-01
                YY= -0.10161933E+02         YZ=  0.29778389E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22542020E-02 Y=  0.48671171E-11 Z= -0.79592788E-07   Total=     0.00225420
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12034138E+01         XY= -0.21299122E-01         XZ= -0.22944588E-01
                YY=  0.12460129E+01         YZ= -0.75199987E-06         ZZ=  0.12460111E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5685064E-03 Y= -0.7064425E-09 Z=  0.5955669E-02  Total=      0.0059827
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167622E+02         XY= -0.28425339E-02         XZ=  0.27048832E-01
                YY= -0.10161933E+02         YZ=  0.29778345E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15615774E-03 Y=  0.10519889E-10 Z= -0.94122826E-07   Total=     0.00015616
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12489626E+01         XY=  0.14754770E-02         XZ= -0.16666194E-02
                YY=  0.12460125E+01         YZ= -0.88924171E-06         ZZ=  0.12460104E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4686245E-03 Y= -0.7059368E-09 Z=  0.5955652E-02  Total=      0.0059741
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166623E+02         XY= -0.23431243E-02         XZ=  0.27403744E-01
                YY= -0.10161933E+02         YZ=  0.29778260E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25304168E-02 Y=  0.14648343E-10 Z= -0.16371275E-06   Total=     0.00253042
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12938296E+01         XY=  0.23908974E-01         XZ=  0.20454086E-01
                YY=  0.12460124E+01         YZ= -0.15467367E-05         ZZ=  0.12460091E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1883624E-03 Y= -0.7047810E-09 Z=  0.5955629E-02  Total=      0.0059586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163821E+02         XY= -0.94181421E-03         XZ=  0.28670990E-01
                YY= -0.10161933E+02         YZ=  0.29778144E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39595403E-02 Y=  0.15382834E-10 Z= -0.19480469E-06   Total=     0.00395954
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13208365E+01         XY=  0.37412234E-01         XZ=  0.34961007E-01
                YY=  0.12460128E+01         YZ= -0.18405069E-05         ZZ=  0.12460090E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1667758E-03 Y= -0.7042031E-09 Z=  0.5955610E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160269E+02         XY=  0.83387728E-03         XZ=  0.30374398E-01
                YY= -0.10161933E+02         YZ=  0.29778050E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38873206E-02 Y=  0.12325181E-10 Z= -0.14550991E-06   Total=     0.00388732
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13194719E+01         XY=  0.36729857E-01         XZ=  0.36229418E-01
                YY=  0.12460131E+01         YZ= -0.13747644E-05         ZZ=  0.12460101E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4616111E-03 Y= -0.7092599E-09 Z=  0.5955600E-02  Total=      0.0059735
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157321E+02         XY=  0.23080534E-02         XZ=  0.31866330E-01
                YY= -0.10161933E+02         YZ=  0.29777999E-01         ZZ= -0.12203865E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23267174E-02 Y=  0.67832676E-11 Z= -0.84928804E-07   Total=     0.00232672
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12899805E+01         XY=  0.21984293E-01         XZ=  0.23645929E-01
                YY=  0.12460129E+01         YZ= -0.80240237E-06         ZZ=  0.12460109E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5827355E-03 Y= -0.7117161E-09 Z=  0.5955591E-02  Total=      0.0059840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156110E+02         XY=  0.29136755E-02         XZ=  0.32573856E-01
                YY= -0.10161933E+02         YZ=  0.29777953E-01         ZZ= -0.12203866E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13953473E-03 Y=  0.12180555E-11 Z= -0.99218883E-07   Total=     0.00013953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12433747E+01         XY= -0.13184121E-02         XZ=  0.18921792E-02
                YY=  0.12460124E+01         YZ= -0.93747083E-06         ZZ=  0.12460102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4821248E-03 Y= -0.7113549E-09 Z=  0.5955573E-02  Total=      0.0059751
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157116E+02         XY=  0.24106221E-02         XZ=  0.32218739E-01
                YY= -0.10161933E+02         YZ=  0.29777864E-01         ZZ= -0.12203866E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25763958E-02 Y= -0.18586506E-11 Z= -0.17206974E-06   Total=     0.00257640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11973247E+01         XY= -0.24343412E-01         XZ= -0.20795083E-01
                YY=  0.12460123E+01         YZ= -0.16258377E-05         ZZ=  0.12460089E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1961480E-03 Y= -0.7115716E-09 Z=  0.5955549E-02  Total=      0.0059588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159976E+02         XY=  0.98073781E-03         XZ=  0.30926761E-01
                YY= -0.10161933E+02         YZ=  0.29777742E-01         ZZ= -0.12203866E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40509575E-02 Y= -0.10379908E-11 Z= -0.20540411E-06   Total=     0.00405096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11694599E+01         XY= -0.38276001E-01         XZ= -0.35742196E-01
                YY=  0.12460127E+01         YZ= -0.19407953E-05         ZZ=  0.12460087E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1675382E-03 Y= -0.7128719E-09 Z=  0.5955529E-02  Total=      0.0059579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163613E+02         XY= -0.83769278E-03         XZ=  0.29183418E-01
                YY= -0.10161933E+02         YZ=  0.29777641E-01         ZZ= -0.12203866E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39895214E-02 Y=  0.33157725E-11 Z= -0.15427352E-06   Total=     0.00398952
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11706211E+01         XY= -0.37695514E-01         XZ= -0.37154738E-01
                YY=  0.12460130E+01         YZ= -0.14576451E-05         ZZ=  0.12460098E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4705030E-03 Y= -0.7128719E-09 Z=  0.5955518E-02  Total=      0.0059741
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166642E+02         XY= -0.23525168E-02         XZ=  0.27651501E-01
                YY= -0.10161933E+02         YZ=  0.29777587E-01         ZZ= -0.12203866E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24006683E-02 Y=  0.91975784E-11 Z= -0.90476779E-07   Total=     0.00240067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12006457E+01         XY= -0.22683028E-01         XZ= -0.24363085E-01
                YY=  0.12460128E+01         YZ= -0.85480428E-06         ZZ=  0.12460107E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5962234E-03 Y= -0.7138111E-09 Z=  0.5955508E-02  Total=      0.0059853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167900E+02         XY= -0.29811192E-02         XZ=  0.26919130E-01
                YY= -0.10161933E+02         YZ=  0.29777539E-01         ZZ= -0.12203867E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12236458E-03 Y=  0.13850552E-10 Z= -0.10494204E-06   Total=     0.00012236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12483237E+01         XY=  0.11561779E-02         XZ= -0.21270680E-02
                YY=  0.12460123E+01         YZ= -0.99144237E-06         ZZ=  0.12460100E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4948872E-03 Y= -0.7127275E-09 Z=  0.5955489E-02  Total=      0.0059760
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166886E+02         XY= -0.24744381E-02         XZ=  0.27274040E-01
                YY= -0.10161933E+02         YZ=  0.29777445E-01         ZZ= -0.12203867E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26230574E-02 Y=  0.15014945E-10 Z= -0.18152814E-06   Total=     0.00262306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12955800E+01         XY=  0.24784301E-01         XZ=  0.21134539E-01
                YY=  0.12460122E+01         YZ= -0.17150665E-05         ZZ=  0.12460086E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2030951E-03 Y= -0.7117161E-09 Z=  0.5955464E-02  Total=      0.0059589
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163968E+02         XY= -0.10154775E-02         XZ=  0.28590691E-01
                YY= -0.10161933E+02         YZ=  0.29777316E-01         ZZ= -0.12203867E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41441701E-02 Y=  0.11968633E-10 Z= -0.21732097E-06   Total=     0.00414417
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13243252E+01         XY=  0.39156733E-01         XZ=  0.36530727E-01
                YY=  0.12460126E+01         YZ= -0.20532854E-05         ZZ=  0.12460084E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1693184E-03 Y= -0.7101990E-09 Z=  0.5955442E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160244E+02         XY=  0.84659010E-03         XZ=  0.30374393E-01
                YY= -0.10161933E+02         YZ=  0.29777209E-01         ZZ= -0.12203867E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40940950E-02 Y=  0.58784087E-11 Z= -0.16410447E-06   Total=     0.00409409
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13233792E+01         XY=  0.38683591E-01         XZ=  0.38095282E-01
                YY=  0.12460130E+01         YZ= -0.15505135E-05         ZZ=  0.12460096E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4806170E-03 Y= -0.7091877E-09 Z=  0.5955431E-02  Total=      0.0059748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157131E+02         XY=  0.24030832E-02         XZ=  0.31947061E-01
                YY= -0.10161933E+02         YZ=  0.29777152E-01         ZZ= -0.12203867E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24768156E-02 Y= -0.70593039E-12 Z= -0.96541615E-07   Total=     0.00247682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12928167E+01         XY=  0.23402516E-01         XZ=  0.25097385E-01
                YY=  0.12460127E+01         YZ= -0.91219253E-06         ZZ=  0.12460105E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6110986E-03 Y= -0.7103435E-09 Z=  0.5955420E-02  Total=      0.0059867
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155827E+02         XY=  0.30554910E-02         XZ=  0.32704929E-01
                YY= -0.10161933E+02         YZ=  0.29777100E-01         ZZ= -0.12203867E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10386293E-03 Y= -0.49908316E-11 Z= -0.11072624E-06   Total=     0.00010386
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12440485E+01         XY= -0.98136252E-03         XZ=  0.23718102E-02
                YY=  0.12460122E+01         YZ= -0.10462542E-05         ZZ=  0.12460097E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5091136E-03 Y= -0.7093321E-09 Z=  0.5955401E-02  Total=      0.0059771
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156846E+02         XY=  0.25455660E-02         XZ=  0.32350313E-01
                YY= -0.10161933E+02         YZ=  0.29777002E-01         ZZ= -0.12203868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26696131E-02 Y= -0.51958129E-11 Z= -0.19090968E-06   Total=     0.00266961
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11955628E+01         XY= -0.25224188E-01         XZ= -0.21477469E-01
                YY=  0.12460121E+01         YZ= -0.18038800E-05         ZZ=  0.12460083E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2114789E-03 Y= -0.7095489E-09 Z=  0.5955374E-02  Total=      0.0059591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159823E+02         XY=  0.10573925E-02         XZ=  0.31008453E-01
                YY= -0.10161933E+02         YZ=  0.29776866E-01         ZZ= -0.12203868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42383954E-02 Y= -0.13559036E-11 Z= -0.22921904E-06   Total=     0.00423840
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11659176E+01         XY= -0.40047033E-01         XZ= -0.37334216E-01
                YY=  0.12460126E+01         YZ= -0.21658192E-05         ZZ=  0.12460080E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1697692E-03 Y= -0.7110659E-09 Z=  0.5955351E-02  Total=      0.0059578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163635E+02         XY= -0.84884803E-03         XZ=  0.29183547E-01
                YY= -0.10161933E+02         YZ=  0.29776753E-01         ZZ= -0.12203868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42002631E-02 Y=  0.46964001E-11 Z= -0.17394272E-06   Total=     0.00420026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11666384E+01         XY= -0.39686735E-01         XZ= -0.39054698E-01
                YY=  0.12460129E+01         YZ= -0.16434833E-05         ZZ=  0.12460093E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4895339E-03 Y= -0.7110659E-09 Z=  0.5955339E-02  Total=      0.0059754
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166833E+02         XY= -0.24476713E-02         XZ=  0.27569319E-01
                YY= -0.10161933E+02         YZ=  0.29776692E-01         ZZ= -0.12203868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25543734E-02 Y=  0.10159959E-10 Z= -0.10258017E-06   Total=     0.00255437
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11977409E+01         XY= -0.24135331E-01         XZ= -0.25847400E-01
                YY=  0.12460126E+01         YZ= -0.96915924E-06         ZZ=  0.12460103E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6248689E-03 Y= -0.7112104E-09 Z=  0.5955328E-02  Total=      0.0059880
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168186E+02         XY= -0.31243463E-02         XZ=  0.26785317E-01
                YY= -0.10161933E+02         YZ=  0.29776638E-01         ZZ= -0.12203868E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84838494E-04 Y=  0.12525888E-10 Z= -0.11653730E-06   Total=     0.00008484
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12476143E+01         XY=  0.80160771E-03         XZ= -0.26258218E-02
                YY=  0.12460121E+01         YZ= -0.11010153E-05         ZZ=  0.12460095E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5222372E-03 Y= -0.7100546E-09 Z=  0.5955307E-02  Total=      0.0059782
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167160E+02         XY= -0.26111881E-02         XZ=  0.27139206E-01
                YY= -0.10161933E+02         YZ=  0.29776535E-01         ZZ= -0.12203869E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27169053E-02 Y=  0.10696466E-10 Z= -0.20050257E-06   Total=     0.00271691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12973531E+01         XY=  0.25671035E-01         XZ=  0.21818860E-01
                YY=  0.12460120E+01         YZ= -0.18943875E-05         ZZ=  0.12460080E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2186558E-03 Y= -0.7096934E-09 Z=  0.5955279E-02  Total=      0.0059593
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164124E+02         XY= -0.10932811E-02         XZ=  0.28506188E-01
                YY= -0.10161933E+02         YZ=  0.29776392E-01         ZZ= -0.12203869E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43345105E-02 Y=  0.54575334E-11 Z= -0.24148596E-06   Total=     0.00433451
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13279219E+01         XY=  0.40955189E-01         XZ=  0.38145189E-01
                YY=  0.12460125E+01         YZ= -0.22816686E-05         ZZ=  0.12460077E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1716129E-03 Y= -0.7091154E-09 Z=  0.5955255E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160222E+02         XY=  0.85806253E-03         XZ=  0.30372710E-01
                YY= -0.10161933E+02         YZ=  0.29776272E-01         ZZ= -0.12203869E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43089254E-02 Y= -0.90172771E-12 Z= -0.18415049E-06   Total=     0.00430893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13274387E+01         XY=  0.40713445E-01         XZ=  0.40029860E-01
                YY=  0.12460128E+01         YZ= -0.17399805E-05         ZZ=  0.12460090E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5000554E-03 Y= -0.7090432E-09 Z=  0.5955242E-02  Total=      0.0059762
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156937E+02         XY=  0.25002751E-02         XZ=  0.32029281E-01
                YY= -0.10161933E+02         YZ=  0.29776207E-01         ZZ= -0.12203869E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26342428E-02 Y= -0.56371832E-11 Z= -0.10895759E-06   Total=     0.00263424
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12957914E+01         XY=  0.24889987E-01         XZ=  0.26615320E-01
                YY=  0.12460126E+01         YZ= -0.10295505E-05         ZZ=  0.12460101E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6404147E-03 Y= -0.7117161E-09 Z=  0.5955230E-02  Total=      0.0059896
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155534E+02         XY=  0.32020717E-02         XZ=  0.32840084E-01
                YY= -0.10161933E+02         YZ=  0.29776150E-01         ZZ= -0.12203869E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64413149E-04 Y= -0.67823870E-11 Z= -0.12287436E-06   Total=     0.00006441
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12447937E+01         XY= -0.60861612E-03         XZ=  0.28900785E-02
                YY=  0.12460120E+01         YZ= -0.11610547E-05         ZZ=  0.12460093E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5372144E-03 Y= -0.7127275E-09 Z=  0.5955209E-02  Total=      0.0059794
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156566E+02         XY=  0.26860700E-02         XZ=  0.32486986E-01
                YY= -0.10161933E+02         YZ=  0.29776042E-01         ZZ= -0.12203870E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27640988E-02 Y= -0.40061644E-11 Z= -0.21105205E-06   Total=     0.00276410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11937770E+01         XY= -0.26116949E-01         XZ= -0.22164282E-01
                YY=  0.12460119E+01         YZ= -0.19941901E-05         ZZ=  0.12460077E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2276538E-03 Y= -0.7126552E-09 Z=  0.5955179E-02  Total=      0.0059595
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159661E+02         XY=  0.11382670E-02         XZ=  0.31094273E-01
                YY= -0.10161933E+02         YZ=  0.29775891E-01         ZZ= -0.12203870E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44317332E-02 Y=  0.12821246E-11 Z= -0.25509295E-06   Total=     0.00443173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11622638E+01         XY= -0.41873811E-01         XZ= -0.38972662E-01
                YY=  0.12460124E+01         YZ= -0.24102720E-05         ZZ=  0.12460074E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1717545E-03 Y= -0.7107047E-09 Z=  0.5955153E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163656E+02         XY= -0.85877435E-03         XZ=  0.29185191E-01
                YY= -0.10161933E+02         YZ=  0.29775765E-01         ZZ= -0.12203870E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44193516E-02 Y=  0.66088875E-11 Z= -0.19574151E-06   Total=     0.00441935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11624980E+01         XY= -0.41756821E-01         XZ= -0.41025990E-01
                YY=  0.12460128E+01         YZ= -0.18494374E-05         ZZ=  0.12460087E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5090237E-03 Y= -0.7095489E-09 Z=  0.5955139E-02  Total=      0.0059769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167028E+02         XY= -0.25451204E-02         XZ=  0.27485368E-01
                YY= -0.10161933E+02         YZ=  0.29775695E-01         ZZ= -0.12203870E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27157358E-02 Y=  0.95678762E-11 Z= -0.11645625E-06   Total=     0.00271574
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11946913E+01         XY= -0.25659985E-01         XZ= -0.27401226E-01
                YY=  0.12460125E+01         YZ= -0.11002752E-05         ZZ=  0.12460098E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6545185E-03 Y= -0.7107047E-09 Z=  0.5955127E-02  Total=      0.0059910
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168483E+02         XY= -0.32725945E-02         XZ=  0.26647018E-01
                YY= -0.10161933E+02         YZ=  0.29775635E-01         ZZ= -0.12203870E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43244470E-04 Y=  0.88851732E-11 Z= -0.13005503E-06   Total=     0.00004324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12468280E+01         XY=  0.40860111E-03         XZ= -0.31660213E-02
                YY=  0.12460119E+01         YZ= -0.12287705E-05         ZZ=  0.12460090E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5507700E-03 Y= -0.7102713E-09 Z=  0.5955105E-02  Total=      0.0059805
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167446E+02         XY= -0.27538520E-02         XZ=  0.26998764E-01
                YY= -0.10161933E+02         YZ=  0.29775521E-01         ZZ= -0.12203871E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28118304E-02 Y=  0.49412272E-11 Z= -0.22232837E-06   Total=     0.00281183
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12991467E+01         XY=  0.26567947E-01         XZ=  0.22505563E-01
                YY=  0.12460118E+01         YZ= -0.21006600E-05         ZZ=  0.12460073E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2351422E-03 Y= -0.7099101E-09 Z=  0.5955073E-02  Total=      0.0059597
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164289E+02         XY= -0.11757128E-02         XZ=  0.28416980E-01
                YY= -0.10161933E+02         YZ=  0.29775362E-01         ZZ= -0.12203871E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45306824E-02 Y= -0.46510028E-12 Z= -0.26936283E-06   Total=     0.00453068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13316288E+01         XY=  0.42808745E-01         XZ=  0.39805068E-01
                YY=  0.12460123E+01         YZ= -0.25451163E-05         ZZ=  0.12460070E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1735784E-03 Y= -0.7097656E-09 Z=  0.5955046E-02  Total=      0.0059576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160202E+02         XY=  0.86788991E-03         XZ=  0.30368913E-01
                YY= -0.10161933E+02         YZ=  0.29775228E-01         ZZ= -0.12203871E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45321396E-02 Y= -0.49762720E-11 Z= -0.20782310E-06   Total=     0.00453214
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13316566E+01         XY=  0.42822513E-01         XZ=  0.42035748E-01
                YY=  0.12460127E+01         YZ= -0.19636879E-05         ZZ=  0.12460084E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5198748E-03 Y= -0.7104158E-09 Z=  0.5955031E-02  Total=      0.0059777
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156740E+02         XY=  0.25993720E-02         XZ=  0.32112682E-01
                YY= -0.10161933E+02         YZ=  0.29775154E-01         ZZ= -0.12203871E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27994227E-02 Y= -0.67480333E-11 Z= -0.12423331E-06   Total=     0.00279942
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12989126E+01         XY=  0.26450711E-01         XZ=  0.28203406E-01
                YY=  0.12460125E+01         YZ= -0.11738935E-05         ZZ=  0.12460096E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6706652E-03 Y= -0.7137388E-09 Z=  0.5955019E-02  Total=      0.0059927
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155232E+02         XY=  0.33533243E-02         XZ=  0.32979171E-01
                YY= -0.10161933E+02         YZ=  0.29775091E-01         ZZ= -0.12203871E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20796744E-04 Y= -0.52426132E-11 Z= -0.13748085E-06   Total=     0.00002080
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12456176E+01         XY= -0.19650080E-03         XZ=  0.34506434E-02
                YY=  0.12460118E+01         YZ= -0.12990518E-05         ZZ=  0.12460088E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5664350E-03 Y= -0.7148224E-09 Z=  0.5954995E-02  Total=      0.0059819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156274E+02         XY=  0.28321729E-02         XZ=  0.32628747E-01
                YY= -0.10161933E+02         YZ=  0.29774971E-01         ZZ= -0.12203872E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28596020E-02 Y= -0.13983714E-11 Z= -0.23402635E-06   Total=     0.00285960
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11919720E+01         XY= -0.27019323E-01         XZ= -0.22852807E-01
                YY=  0.12460117E+01         YZ= -0.22112421E-05         ZZ=  0.12460070E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2446942E-03 Y= -0.7151837E-09 Z=  0.5954961E-02  Total=      0.0059600
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159491E+02         XY=  0.12234692E-02         XZ=  0.31184302E-01
                YY= -0.10161933E+02         YZ=  0.29774804E-01         ZZ= -0.12203872E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46308968E-02 Y=  0.28706756E-11 Z= -0.28417224E-06   Total=     0.00463090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11584999E+01         XY= -0.43755634E-01         XZ= -0.40656232E-01
                YY=  0.12460122E+01         YZ= -0.26850159E-05         ZZ=  0.12460067E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1734723E-03 Y= -0.7135944E-09 Z=  0.5954933E-02  Total=      0.0059575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163673E+02         XY= -0.86736332E-03         XZ=  0.29188458E-01
                YY= -0.10161933E+02         YZ=  0.29774662E-01         ZZ= -0.12203872E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46468616E-02 Y=  0.55882724E-11 Z= -0.22024409E-06   Total=     0.00464686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11581985E+01         XY= -0.43906479E-01         XZ= -0.43068659E-01
                YY=  0.12460127E+01         YZ= -0.20809592E-05         ZZ=  0.12460082E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5289607E-03 Y= -0.7115716E-09 Z=  0.5954917E-02  Total=      0.0059784
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167228E+02         XY= -0.26448055E-02         XZ=  0.27399732E-01
                YY= -0.10161933E+02         YZ=  0.29774583E-01         ZZ= -0.12203872E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28849067E-02 Y=  0.56074605E-11 Z= -0.13192460E-06   Total=     0.00288491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11914942E+01         XY= -0.27258418E-01         XZ= -0.29025500E-01
                YY=  0.12460124E+01         YZ= -0.12464602E-05         ZZ=  0.12460094E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6851746E-03 Y= -0.7130164E-09 Z=  0.5954904E-02  Total=      0.0059942
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168790E+02         XY= -0.34258749E-02         XZ=  0.26504262E-01
                YY= -0.10161933E+02         YZ=  0.29774517E-01         ZZ= -0.12203873E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25661260E-05 Y=  0.30772632E-11 Z= -0.14453800E-06   Total=     0.00000257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12459620E+01         XY= -0.24246348E-04         XZ= -0.37489196E-02
                YY=  0.12460117E+01         YZ= -0.13656604E-05         ZZ=  0.12460085E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5805003E-03 Y= -0.7137388E-09 Z=  0.5954879E-02  Total=      0.0059831
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167743E+02         XY= -0.29025035E-02         XZ=  0.26852680E-01
                YY= -0.10161933E+02         YZ=  0.29774391E-01         ZZ= -0.12203873E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29077370E-02 Y= -0.70540017E-12 Z= -0.24544875E-06   Total=     0.00290774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13009587E+01         XY=  0.27474133E-01         XZ=  0.23193492E-01
                YY=  0.12460116E+01         YZ= -0.23191601E-05         ZZ=  0.12460067E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2525770E-03 Y= -0.7150392E-09 Z=  0.5954843E-02  Total=      0.0059602
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164464E+02         XY= -0.12628867E-02         XZ=  0.28322974E-01
                YY= -0.10161933E+02         YZ=  0.29774216E-01         ZZ= -0.12203873E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47326466E-02 Y= -0.39574676E-11 Z= -0.29905780E-06   Total=     0.00473265
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13354451E+01         XY=  0.44717030E-01         XZ=  0.41509421E-01
                YY=  0.12460122E+01         YZ= -0.28257193E-05         ZZ=  0.12460063E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1751877E-03 Y= -0.7148947E-09 Z=  0.5954814E-02  Total=      0.0059574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160187E+02         XY=  0.87593651E-03         XZ=  0.30362857E-01
                YY= -0.10161933E+02         YZ=  0.29774066E-01         ZZ= -0.12203873E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47637189E-02 Y= -0.52544598E-11 Z= -0.23310582E-06   Total=     0.00476372
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13360326E+01         XY=  0.45010621E-01         XZ=  0.44112058E-01
                YY=  0.12460126E+01         YZ= -0.22025742E-05         ZZ=  0.12460078E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5400447E-03 Y= -0.7142445E-09 Z=  0.5954797E-02  Total=      0.0059792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156538E+02         XY=  0.27002216E-02         XZ=  0.32197075E-01
                YY= -0.10161933E+02         YZ=  0.29773982E-01         ZZ= -0.12203873E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29723057E-02 Y= -0.41589606E-11 Z= -0.14037168E-06   Total=     0.00297231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13021794E+01         XY=  0.28084219E-01         XZ=  0.29860542E-01
                YY=  0.12460123E+01         YZ= -0.13263543E-05         ZZ=  0.12460091E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7018140E-03 Y= -0.7166285E-09 Z=  0.5954783E-02  Total=      0.0059960
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154921E+02         XY=  0.35090680E-02         XZ=  0.33121950E-01
                YY= -0.10161933E+02         YZ=  0.29773912E-01         ZZ= -0.12203874E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26869060E-04 Y= -0.13545269E-11 Z= -0.15269373E-06   Total=     0.00002687
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12465181E+01         XY=  0.25387582E-03         XZ=  0.40520260E-02
                YY=  0.12460117E+01         YZ= -0.14427573E-05         ZZ=  0.12460083E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5967296E-03 Y= -0.7164840E-09 Z=  0.5954756E-02  Total=      0.0059846
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155971E+02         XY=  0.29836462E-02         XZ=  0.32775300E-01
                YY= -0.10161933E+02         YZ=  0.29773780E-01         ZZ= -0.12203874E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29563059E-02 Y=  0.17500153E-11 Z= -0.25824957E-06   Total=     0.00295631
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11901442E+01         XY= -0.27933042E-01         XZ= -0.23544807E-01
                YY=  0.12460115E+01         YZ= -0.24400891E-05         ZZ=  0.12460063E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2625423E-03 Y= -0.7161228E-09 Z=  0.5954719E-02  Total=      0.0059605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159313E+02         XY=  0.13127094E-02         XZ=  0.31278185E-01
                YY= -0.10161933E+02         YZ=  0.29773595E-01         ZZ= -0.12203875E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48360916E-02 Y=  0.37310748E-11 Z= -0.31521253E-06   Total=     0.00483609
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11546220E+01         XY= -0.45694443E-01         XZ= -0.42386598E-01
                YY=  0.12460121E+01         YZ= -0.29782941E-05         ZZ=  0.12460059E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1749915E-03 Y= -0.7159783E-09 Z=  0.5954688E-02  Total=      0.0059573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163689E+02         XY= -0.87495931E-03         XZ=  0.29192954E-01
                YY= -0.10161933E+02         YZ=  0.29773436E-01         ZZ= -0.12203875E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48829482E-02 Y=  0.38247105E-11 Z= -0.24653632E-06   Total=     0.00488295
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11537369E+01         XY= -0.46137174E-01         XZ= -0.45183733E-01
                YY=  0.12460126E+01         YZ= -0.23293969E-05         ZZ=  0.12460075E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5494184E-03 Y= -0.7169174E-09 Z=  0.5954670E-02  Total=      0.0059800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167433E+02         XY= -0.27470937E-02         XZ=  0.27312014E-01
                YY= -0.10161933E+02         YZ=  0.29773348E-01         ZZ= -0.12203875E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30619161E-02 Y=  0.22459826E-11 Z= -0.14836987E-06   Total=     0.00306192
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11881490E+01         XY= -0.28930915E-01         XZ= -0.30720058E-01
                YY=  0.12460123E+01         YZ= -0.14018713E-05         ZZ=  0.12460089E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7169042E-03 Y= -0.7208184E-09 Z=  0.5954655E-02  Total=      0.0059977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169108E+02         XY= -0.35845231E-02         XZ=  0.26356698E-01
                YY= -0.10161933E+02         YZ=  0.29773274E-01         ZZ= -0.12203875E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52449990E-04 Y=  0.18161412E-13 Z= -0.15965998E-06   Total=     0.00005245
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12450190E+01         XY= -0.49558059E-03         XZ= -0.43728395E-02
                YY=  0.12460116E+01         YZ= -0.15085658E-05         ZZ=  0.12460080E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6114760E-03 Y= -0.7219743E-09 Z=  0.5954628E-02  Total=      0.0059859
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168053E+02         XY= -0.30573820E-02         XZ=  0.26700707E-01
                YY= -0.10161933E+02         YZ=  0.29773137E-01         ZZ= -0.12203876E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30049453E-02 Y= -0.15829472E-11 Z= -0.26977831E-06   Total=     0.00300495
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13027954E+01         XY=  0.28392619E-01         XZ=  0.23885820E-01
                YY=  0.12460114E+01         YZ= -0.25490468E-05         ZZ=  0.12460060E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2709774E-03 Y= -0.7220465E-09 Z=  0.5954589E-02  Total=      0.0059608
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164649E+02         XY= -0.13548888E-02         XZ=  0.28224080E-01
                YY= -0.10161933E+02         YZ=  0.29772943E-01         ZZ= -0.12203876E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49408552E-02 Y= -0.16819926E-11 Z= -0.33054245E-06   Total=     0.00494086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13393794E+01         XY=  0.46684316E-01         XZ=  0.43262526E-01
                YY=  0.12460120E+01         YZ= -0.31231857E-05         ZZ=  0.12460055E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1764613E-03 Y= -0.7225522E-09 Z=  0.5954556E-02  Total=      0.0059572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160174E+02         XY=  0.88230473E-03         XZ=  0.30354639E-01
                YY= -0.10161933E+02         YZ=  0.29772776E-01         ZZ= -0.12203876E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50041656E-02 Y= -0.23115426E-12 Z= -0.25973659E-06   Total=     0.00500417
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13405761E+01         XY=  0.47282513E-01         XZ=  0.46263493E-01
                YY=  0.12460125E+01         YZ= -0.24541553E-05         ZZ=  0.12460072E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5606235E-03 Y= -0.7221188E-09 Z=  0.5954537E-02  Total=      0.0059809
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156333E+02         XY=  0.28031158E-02         XZ=  0.32282743E-01
                YY= -0.10161932E+02         YZ=  0.29772682E-01         ZZ= -0.12203876E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31533471E-02 Y=  0.19938999E-11 Z= -0.15666327E-06   Total=     0.00315335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13056003E+01         XY=  0.29794812E-01         XZ=  0.31591046E-01
                YY=  0.12460122E+01         YZ= -0.14802350E-05         ZZ=  0.12460086E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7339505E-03 Y= -0.7226967E-09 Z=  0.5954521E-02  Total=      0.0059996
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154600E+02         XY=  0.36697506E-02         XZ=  0.33268861E-01
                YY= -0.10161933E+02         YZ=  0.29772605E-01         ZZ= -0.12203876E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78905470E-04 Y=  0.38148354E-11 Z= -0.16738214E-06   Total=     0.00007891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12475011E+01         XY=  0.74554868E-03         XZ=  0.46973944E-02
                YY=  0.12460114E+01         YZ= -0.15814982E-05         ZZ=  0.12460077E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6282064E-03 Y= -0.7217576E-09 Z=  0.5954493E-02  Total=      0.0059875
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155657E+02         XY=  0.31410302E-02         XZ=  0.32927184E-01
                YY= -0.10161933E+02         YZ=  0.29772462E-01         ZZ= -0.12203877E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30540809E-02 Y=  0.42689031E-11 Z= -0.28240527E-06   Total=     0.00305408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11882962E+01         XY= -0.28856882E-01         XZ= -0.24238822E-01
                YY=  0.12460113E+01         YZ= -0.26683052E-05         ZZ=  0.12460056E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2813086E-03 Y= -0.7209629E-09 Z=  0.5954452E-02  Total=      0.0059611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159126E+02         XY=  0.14065413E-02         XZ=  0.31376483E-01
                YY= -0.10161933E+02         YZ=  0.29772258E-01         ZZ= -0.12203877E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50473966E-02 Y=  0.31085090E-11 Z= -0.34697734E-06   Total=     0.00504740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11506286E+01         XY= -0.47690986E-01         XZ= -0.44164253E-01
                YY=  0.12460119E+01         YZ= -0.32784322E-05         ZZ=  0.12460050E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1762148E-03 Y= -0.7208184E-09 Z=  0.5954417E-02  Total=      0.0059570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163701E+02         XY= -0.88107592E-03         XZ=  0.29199180E-01
                YY= -0.10161933E+02         YZ=  0.29772082E-01         ZZ= -0.12203877E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51278754E-02 Y=  0.93000751E-12 Z= -0.27362153E-06   Total=     0.00512788
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11491081E+01         XY= -0.48451401E-01         XZ= -0.47373559E-01
                YY=  0.12460124E+01         YZ= -0.25853382E-05         ZZ=  0.12460068E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5703261E-03 Y= -0.7208907E-09 Z=  0.5954397E-02  Total=      0.0059816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167643E+02         XY= -0.28516322E-02         XZ=  0.27222583E-01
                YY= -0.10161932E+02         YZ=  0.29771983E-01         ZZ= -0.12203877E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32471580E-02 Y= -0.11347783E-11 Z= -0.16510772E-06   Total=     0.00324716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11846481E+01         XY= -0.30681197E-01         XZ= -0.32488699E-01
                YY=  0.12460121E+01         YZ= -0.15600485E-05         ZZ=  0.12460083E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7496719E-03 Y= -0.7245027E-09 Z=  0.5954381E-02  Total=      0.0060014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169436E+02         XY= -0.37483614E-02         XZ=  0.26204514E-01
                YY= -0.10161933E+02         YZ=  0.29771902E-01         ZZ= -0.12203878E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10685735E-03 Y= -0.20094721E-11 Z= -0.17512502E-06   Total=     0.00010686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12439905E+01         XY= -0.10096557E-02         XZ= -0.50423970E-02
                YY=  0.12460113E+01         YZ= -0.16547057E-05         ZZ=  0.12460074E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6436987E-03 Y= -0.7260920E-09 Z=  0.5954351E-02  Total=      0.0059890
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168376E+02         XY= -0.32184956E-02         XZ=  0.26542827E-01
                YY= -0.10161933E+02         YZ=  0.29771753E-01         ZZ= -0.12203878E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31030241E-02 Y= -0.12471658E-11 Z= -0.29552027E-06   Total=     0.00310302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13046484E+01         XY=  0.29319329E-01         XZ=  0.24577849E-01
                YY=  0.12460111E+01         YZ= -0.27922697E-05         ZZ=  0.12460052E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2903783E-03 Y= -0.7258753E-09 Z=  0.5954308E-02  Total=      0.0059614
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164843E+02         XY= -0.14518936E-02         XZ=  0.28120083E-01
                YY= -0.10161933E+02         YZ=  0.29771539E-01         ZZ= -0.12203879E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51549602E-02 Y=  0.70762065E-12 Z= -0.36462104E-06   Total=     0.00515496
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13434250E+01         XY=  0.48707315E-01         XZ=  0.45060314E-01
                YY=  0.12460118E+01         YZ= -0.34451611E-05         ZZ=  0.12460046E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1773399E-03 Y= -0.7255141E-09 Z=  0.5954271E-02  Total=      0.0059569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160166E+02         XY=  0.88669753E-03         XZ=  0.30343889E-01
                YY= -0.10161932E+02         YZ=  0.29771353E-01         ZZ= -0.12203879E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52532576E-02 Y=  0.27112772E-11 Z= -0.28917965E-06   Total=     0.00525326
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13452830E+01         XY=  0.49636091E-01         XZ=  0.48487182E-01
                YY=  0.12460123E+01         YZ= -0.27323264E-05         ZZ=  0.12460064E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5815392E-03 Y= -0.7258753E-09 Z=  0.5954250E-02  Total=      0.0059826
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156124E+02         XY=  0.29076940E-02         XZ=  0.32369225E-01
                YY= -0.10161932E+02         YZ=  0.29771248E-01         ZZ= -0.12203879E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33424695E-02 Y=  0.34841104E-11 Z= -0.17525879E-06   Total=     0.00334247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13091738E+01         XY=  0.31581760E-01         XZ=  0.33393595E-01
                YY=  0.12460120E+01         YZ= -0.16559236E-05         ZZ=  0.12460080E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7670025E-03 Y= -0.7293428E-09 Z=  0.5954233E-02  Total=      0.0060034
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154270E+02         XY=  0.38350104E-02         XZ=  0.33419424E-01
                YY= -0.10161932E+02         YZ=  0.29771164E-01         ZZ= -0.12203879E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13537467E-03 Y=  0.22695216E-11 Z= -0.18436962E-06   Total=     0.00013537
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12485678E+01         XY=  0.12791053E-02         XZ=  0.53870634E-02
                YY=  0.12460112E+01         YZ= -0.17420183E-05         ZZ=  0.12460071E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6608041E-03 Y= -0.7308599E-09 Z=  0.5954202E-02  Total=      0.0059908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155331E+02         XY=  0.33040187E-02         XZ=  0.33083970E-01
                YY= -0.10161933E+02         YZ=  0.29771007E-01         ZZ= -0.12203880E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31527474E-02 Y= -0.74121052E-12 Z= -0.30986090E-06   Total=     0.00315275
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11864312E+01         XY= -0.29789146E-01         XZ= -0.24933049E-01
                YY=  0.12460110E+01         YZ= -0.29277640E-05         ZZ=  0.12460047E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3009518E-03 Y= -0.7332438E-09 Z=  0.5954157E-02  Total=      0.0059618
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158930E+02         XY=  0.15047573E-02         XZ=  0.31478881E-01
                YY= -0.10161933E+02         YZ=  0.29770782E-01         ZZ= -0.12203880E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52645462E-02 Y= -0.44443847E-11 Z= -0.38306310E-06   Total=     0.00526455
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11465247E+01         XY= -0.49742753E-01         XZ= -0.45986231E-01
                YY=  0.12460116E+01         YZ= -0.36194553E-05         ZZ=  0.12460041E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1771586E-03 Y= -0.7339663E-09 Z=  0.5954118E-02  Total=      0.0059568
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163711E+02         XY= -0.88579498E-03         XZ=  0.29206973E-01
                YY= -0.10161932E+02         YZ=  0.29770587E-01         ZZ= -0.12203880E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53813233E-02 Y= -0.73203682E-11 Z= -0.30488532E-06   Total=     0.00538132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11443183E+01         XY= -0.50846136E-01         XZ= -0.49634410E-01
                YY=  0.12460122E+01         YZ= -0.28808064E-05         ZZ=  0.12460060E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5916726E-03 Y= -0.7336773E-09 Z=  0.5954095E-02  Total=      0.0059834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167857E+02         XY= -0.29583649E-02         XZ=  0.27131446E-01
                YY= -0.10161932E+02         YZ=  0.29770476E-01         ZZ= -0.12203880E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34402835E-02 Y= -0.81642154E-11 Z= -0.18494876E-06   Total=     0.00344028
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11809982E+01         XY= -0.32505969E-01         XZ= -0.34327329E-01
                YY=  0.12460119E+01         YZ= -0.17475773E-05         ZZ=  0.12460077E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7834384E-03 Y= -0.7380840E-09 Z=  0.5954078E-02  Total=      0.0060054
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169774E+02         XY= -0.39171938E-02         XZ=  0.26047888E-01
                YY= -0.10161932E+02         YZ=  0.29770387E-01         ZZ= -0.12203881E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16542951E-03 Y= -0.66975235E-11 Z= -0.19305295E-06   Total=     0.00016543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12428832E+01         XY= -0.15630824E-02         XZ= -0.57534708E-02
                YY=  0.12460110E+01         YZ= -0.18241388E-05         ZZ=  0.12460067E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6771023E-03 Y= -0.7401790E-09 Z=  0.5954045E-02  Total=      0.0059924
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168711E+02         XY= -0.33855133E-02         XZ=  0.26379382E-01
                YY= -0.10161932E+02         YZ=  0.29770223E-01         ZZ= -0.12203881E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32023269E-02 Y= -0.37545084E-11 Z= -0.32421031E-06   Total=     0.00320233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13065245E+01         XY=  0.30257604E-01         XZ=  0.25273455E-01
                YY=  0.12460108E+01         YZ= -0.30633717E-05         ZZ=  0.12460043E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3106883E-03 Y= -0.7407569E-09 Z=  0.5953998E-02  Total=      0.0059621
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165047E+02         XY= -0.15534435E-02         XZ=  0.28011470E-01
                YY= -0.10161932E+02         YZ=  0.29769988E-01         ZZ= -0.12203882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53752903E-02 Y= -0.93175823E-12 Z= -0.40237989E-06   Total=     0.00537529
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13475883E+01         XY=  0.50789133E-01         XZ=  0.46906168E-01
                YY=  0.12460115E+01         YZ= -0.38019437E-05         ZZ=  0.12460036E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1779371E-03 Y= -0.7403957E-09 Z=  0.5953957E-02  Total=      0.0059566
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160161E+02         XY=  0.88968341E-03         XZ=  0.30331212E-01
                YY= -0.10161932E+02         YZ=  0.29769781E-01         ZZ= -0.12203882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55112679E-02 Y=  0.14823293E-12 Z= -0.32208458E-06   Total=     0.00551127
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13501583E+01         XY=  0.52073935E-01         XZ=  0.50785729E-01
                YY=  0.12460121E+01         YZ= -0.30432540E-05         ZZ=  0.12460055E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6029219E-03 Y= -0.7404679E-09 Z=  0.5953933E-02  Total=      0.0059844
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155911E+02         XY=  0.30146078E-02         XZ=  0.32457203E-01
                YY= -0.10161932E+02         YZ=  0.29769663E-01         ZZ= -0.12203882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35398430E-02 Y= -0.13808965E-11 Z= -0.19630637E-06   Total=     0.00353984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13129033E+01         XY=  0.33446669E-01         XZ=  0.35269630E-01
                YY=  0.12460118E+01         YZ= -0.18548348E-05         ZZ=  0.12460073E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8011075E-03 Y= -0.7443689E-09 Z=  0.5953914E-02  Total=      0.0060076
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153929E+02         XY=  0.40055356E-02         XZ=  0.33574348E-01
                YY= -0.10161932E+02         YZ=  0.29769570E-01         ZZ= -0.12203882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19628694E-03 Y= -0.51775165E-11 Z= -0.20331689E-06   Total=     0.00019629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12497184E+01         XY=  0.18546428E-02         XZ=  0.61208606E-02
                YY=  0.12460109E+01         YZ= -0.19211064E-05         ZZ=  0.12460064E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6946538E-03 Y= -0.7441522E-09 Z=  0.5953880E-02  Total=      0.0059943
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154993E+02         XY=  0.34732673E-02         XZ=  0.33246322E-01
                YY= -0.10161932E+02         YZ=  0.29769398E-01         ZZ= -0.12203883E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32525080E-02 Y= -0.97985777E-11 Z= -0.33995052E-06   Total=     0.00325251
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11845456E+01         XY= -0.30731747E-01         XZ= -0.25629689E-01
                YY=  0.12460107E+01         YZ= -0.32121459E-05         ZZ=  0.12460038E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3215789E-03 Y= -0.7445134E-09 Z=  0.5953831E-02  Total=      0.0059625
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158724E+02         XY=  0.16078926E-02         XZ=  0.31585909E-01
                YY= -0.10161932E+02         YZ=  0.29769151E-01         ZZ= -0.12203884E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54879822E-02 Y= -0.13332642E-10 Z= -0.42270283E-06   Total=     0.00548798
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11423020E+01         XY= -0.51853917E-01         XZ= -0.47856966E-01
                YY=  0.12460114E+01         YZ= -0.39940717E-05         ZZ=  0.12460030E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1777584E-03 Y= -0.7456693E-09 Z=  0.5953787E-02  Total=      0.0059564
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163718E+02         XY= -0.88879407E-03         XZ=  0.29216638E-01
                YY= -0.10161932E+02         YZ=  0.29768934E-01         ZZ= -0.12203884E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56439526E-02 Y= -0.14274321E-10 Z= -0.33964737E-06   Total=     0.00564395
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11393550E+01         XY= -0.53327623E-01         XZ= -0.51972766E-01
                YY=  0.12460120E+01         YZ= -0.32093196E-05         ZZ=  0.12460051E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6134512E-03 Y= -0.7467529E-09 Z=  0.5953762E-02  Total=      0.0059853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168075E+02         XY= -0.30672581E-02         XZ=  0.27038607E-01
                YY= -0.10161932E+02         YZ=  0.29768809E-01         ZZ= -0.12203884E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36420942E-02 Y= -0.12235578E-10 Z= -0.20744148E-06   Total=     0.00364209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11771841E+01         XY= -0.34412803E-01         XZ= -0.36243774E-01
                YY=  0.12460117E+01         YZ= -0.19601383E-05         ZZ=  0.12460070E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8182619E-03 Y= -0.7512318E-09 Z=  0.5953743E-02  Total=      0.0060097
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170123E+02         XY= -0.40913113E-02         XZ=  0.25886488E-01
                YY= -0.10161932E+02         YZ=  0.29768711E-01         ZZ= -0.12203884E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22897833E-03 Y= -0.81560597E-11 Z= -0.21335213E-06   Total=     0.00022898
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12416818E+01         XY= -0.21635318E-02         XZ= -0.65140428E-02
                YY=  0.12460107E+01         YZ= -0.20159522E-05         ZZ=  0.12460060E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7118053E-03 Y= -0.7528933E-09 Z=  0.5953707E-02  Total=      0.0059961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169058E+02         XY= -0.35590282E-02         XZ=  0.26209722E-01
                YY= -0.10161932E+02         YZ=  0.29768532E-01         ZZ= -0.12203885E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33021876E-02 Y= -0.39044488E-11 Z= -0.35619947E-06   Total=     0.00330219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13084111E+01         XY=  0.31201151E-01         XZ=  0.25965961E-01
                YY=  0.12460105E+01         YZ= -0.33656286E-05         ZZ=  0.12460033E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3320695E-03 Y= -0.7543381E-09 Z=  0.5953655E-02  Total=      0.0059629
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165261E+02         XY= -0.16603493E-02         XZ=  0.27897354E-01
                YY= -0.10161932E+02         YZ=  0.29768272E-01         ZZ= -0.12203885E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56014677E-02 Y= -0.14444739E-11 Z= -0.44456567E-06   Total=     0.00560147
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13518620E+01         XY=  0.52926199E-01         XZ=  0.48796097E-01
                YY=  0.12460112E+01         YZ= -0.42005478E-05         ZZ=  0.12460025E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1780743E-03 Y= -0.7547716E-09 Z=  0.5953609E-02  Total=      0.0059563
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160160E+02         XY=  0.89036945E-03         XZ=  0.30315619E-01
                YY= -0.10161932E+02         YZ=  0.29768042E-01         ZZ= -0.12203885E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57781933E-02 Y= -0.19450785E-11 Z= -0.35943408E-06   Total=     0.00577819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13552021E+01         XY=  0.54596014E-01         XZ=  0.53158743E-01
                YY=  0.12460119E+01         YZ= -0.33961751E-05         ZZ=  0.12460046E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6246081E-03 Y= -0.7555662E-09 Z=  0.5953582E-02  Total=      0.0059863
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155695E+02         XY=  0.31230387E-02         XZ=  0.32545753E-01
                YY= -0.10161932E+02         YZ=  0.29767910E-01         ZZ= -0.12203886E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37458415E-02 Y= -0.52420005E-11 Z= -0.22090491E-06   Total=     0.00374584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13167957E+01         XY=  0.35393073E-01         XZ=  0.37222526E-01
                YY=  0.12460115E+01         YZ= -0.20872918E-05         ZZ=  0.12460065E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8361452E-03 Y= -0.7600452E-09 Z=  0.5953562E-02  Total=      0.0060120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153579E+02         XY=  0.41807239E-02         XZ=  0.33732923E-01
                YY= -0.10161932E+02         YZ=  0.29767806E-01         ZZ= -0.12203886E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26230816E-03 Y= -0.99005058E-11 Z= -0.22548502E-06   Total=     0.00026231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12509656E+01         XY=  0.24784529E-02         XZ=  0.69052466E-02
                YY=  0.12460106E+01         YZ= -0.21306066E-05         ZZ=  0.12460055E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7296972E-03 Y= -0.7610565E-09 Z=  0.5953524E-02  Total=      0.0059981
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154644E+02         XY=  0.36484841E-02         XZ=  0.33413857E-01
                YY= -0.10161932E+02         YZ=  0.29767618E-01         ZZ= -0.12203887E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33525530E-02 Y= -0.13852966E-10 Z= -0.37424513E-06   Total=     0.00335255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11826545E+01         XY= -0.31677035E-01         XZ= -0.26320537E-01
                YY=  0.12460103E+01         YZ= -0.35362192E-05         ZZ=  0.12460027E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3431991E-03 Y= -0.7606953E-09 Z=  0.5953470E-02  Total=      0.0059634
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158509E+02         XY=  0.17159938E-02         XZ=  0.31697551E-01
                YY= -0.10161932E+02         YZ=  0.29767346E-01         ZZ= -0.12203887E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57169183E-02 Y= -0.15322852E-10 Z= -0.46783054E-06   Total=     0.00571692
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11379752E+01         XY= -0.54017050E-01         XZ= -0.49768126E-01
                YY=  0.12460111E+01         YZ= -0.44204857E-05         ZZ=  0.12460019E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1779449E-03 Y= -0.7611288E-09 Z=  0.5953421E-02  Total=      0.0059561
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163720E+02         XY= -0.88972636E-03         XZ=  0.29228505E-01
                YY= -0.10161932E+02         YZ=  0.29767103E-01         ZZ= -0.12203887E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59151367E-02 Y= -0.13616057E-10 Z= -0.38005317E-06   Total=     0.00591514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11342300E+01         XY= -0.55889942E-01         XZ= -0.54381604E-01
                YY=  0.12460118E+01         YZ= -0.35910960E-05         ZZ=  0.12460040E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6355494E-03 Y= -0.7628626E-09 Z=  0.5953393E-02  Total=      0.0059872
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168297E+02         XY= -0.31777489E-02         XZ=  0.26944662E-01
                YY= -0.10161932E+02         YZ=  0.29766963E-01         ZZ= -0.12203887E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38521947E-02 Y= -0.94245118E-11 Z= -0.23467951E-06   Total=     0.00385219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11732134E+01         XY= -0.36397965E-01         XZ= -0.38233222E-01
                YY=  0.12460114E+01         YZ= -0.22174792E-05         ZZ=  0.12460061E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8540069E-03 Y= -0.7680639E-09 Z=  0.5953371E-02  Total=      0.0060143
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170481E+02         XY= -0.42700363E-02         XZ=  0.25721064E-01
                YY= -0.10161932E+02         YZ=  0.29766853E-01         ZZ= -0.12203888E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29733804E-03 Y= -0.45098610E-11 Z= -0.23787096E-06   Total=     0.00029734
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12403895E+01         XY= -0.28094373E-02         XZ= -0.73217509E-02
                YY=  0.12460104E+01         YZ= -0.22475931E-05         ZZ=  0.12460051E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7476672E-03 Y= -0.7690753E-09 Z=  0.5953332E-02  Total=      0.0060001
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169417E+02         XY= -0.37383381E-02         XZ=  0.26034645E-01
                YY= -0.10161932E+02         YZ=  0.29766656E-01         ZZ= -0.12203889E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34025968E-02 Y= -0.91579949E-12 Z= -0.39304944E-06   Total=     0.00340260
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13103080E+01         XY=  0.32149881E-01         XZ=  0.26655596E-01
                YY=  0.12460101E+01         YZ= -0.37137873E-05         ZZ=  0.12460022E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3543888E-03 Y= -0.7695810E-09 Z=  0.5953274E-02  Total=      0.0059638
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165485E+02         XY= -0.17719461E-02         XZ=  0.27778500E-01
                YY= -0.10161932E+02         YZ=  0.29766370E-01         ZZ= -0.12203889E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58333770E-02 Y= -0.66619641E-13 Z= -0.49249870E-06   Total=     0.00583338
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13562439E+01         XY=  0.55117425E-01         XZ=  0.50728772E-01
                YY=  0.12460109E+01         YZ= -0.46534393E-05         ZZ=  0.12460012E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1778700E-03 Y= -0.7710258E-09 Z=  0.5953223E-02  Total=      0.0059559
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160163E+02         XY=  0.88934800E-03         XZ=  0.30297785E-01
                YY= -0.10161932E+02         YZ=  0.29766114E-01         ZZ= -0.12203889E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60538590E-02 Y= -0.21558754E-11 Z= -0.40233698E-06   Total=     0.00605386
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13604110E+01         XY=  0.57200678E-01         XZ=  0.55603845E-01
                YY=  0.12460116E+01         YZ= -0.38015519E-05         ZZ=  0.12460034E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6466977E-03 Y= -0.7737709E-09 Z=  0.5953193E-02  Total=      0.0059882
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155475E+02         XY=  0.32334867E-02         XZ=  0.32635420E-01
                YY= -0.10161932E+02         YZ=  0.29765964E-01         ZZ= -0.12203889E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39602351E-02 Y= -0.60889207E-11 Z= -0.24993277E-06   Total=     0.00396024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13208467E+01         XY=  0.37418799E-01         XZ=  0.39249072E-01
                YY=  0.12460113E+01         YZ= -0.23615736E-05         ZZ=  0.12460057E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8721925E-03 Y= -0.7796947E-09 Z=  0.5953170E-02  Total=      0.0060167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153220E+02         XY=  0.43609605E-02         XZ=  0.33895536E-01
                YY= -0.10161932E+02         YZ=  0.29765849E-01         ZZ= -0.12203890E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33312127E-03 Y= -0.99921375E-11 Z= -0.25147938E-06   Total=     0.00033312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12523032E+01         XY=  0.31475397E-02         XZ=  0.77361347E-02
                YY=  0.12460102E+01         YZ= -0.23762196E-05         ZZ=  0.12460046E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7659811E-03 Y= -0.7818619E-09 Z=  0.5953129E-02  Total=      0.0060022
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154281E+02         XY=  0.38299037E-02         XZ=  0.33586768E-01
                YY= -0.10161932E+02         YZ=  0.29765643E-01         ZZ= -0.12203891E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34533242E-02 Y= -0.12048915E-10 Z= -0.41302752E-06   Total=     0.00345332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11807496E+01         XY= -0.32629185E-01         XZ= -0.27010673E-01
                YY=  0.12460099E+01         YZ= -0.39026458E-05         ZZ=  0.12460016E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3658200E-03 Y= -0.7844626E-09 Z=  0.5953069E-02  Total=      0.0059643
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158283E+02         XY=  0.18290981E-02         XZ=  0.31813777E-01
                YY= -0.10161932E+02         YZ=  0.29765342E-01         ZZ= -0.12203891E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59519261E-02 Y= -0.11285310E-10 Z= -0.51834534E-06   Total=     0.00595193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11335337E+01         XY= -0.56237551E-01         XZ= -0.51725683E-01
                YY=  0.12460107E+01         YZ= -0.48977490E-05         ZZ=  0.12460005E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1777580E-03 Y= -0.7861963E-09 Z=  0.5953015E-02  Total=      0.0059557
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163719E+02         XY= -0.88879189E-03         XZ=  0.29242287E-01
                YY= -0.10161932E+02         YZ=  0.29765072E-01         ZZ= -0.12203891E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61955225E-02 Y= -0.79611233E-11 Z= -0.42557344E-06   Total=     0.00619552
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11289310E+01         XY= -0.58539204E-01         XZ= -0.56867246E-01
                YY=  0.12460115E+01         YZ= -0.40211541E-05         ZZ=  0.12460028E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6580566E-03 Y= -0.7867020E-09 Z=  0.5952983E-02  Total=      0.0059892
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168523E+02         XY= -0.32902851E-02         XZ=  0.26849075E-01
                YY= -0.10161931E+02         YZ=  0.29764913E-01         ZZ= -0.12203891E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40711913E-02 Y= -0.34094591E-11 Z= -0.26575336E-06   Total=     0.00407119
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11690745E+01         XY= -0.38467183E-01         XZ= -0.40301338E-01
                YY=  0.12460111E+01         YZ= -0.25110354E-05         ZZ=  0.12460052E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8908044E-03 Y= -0.7904585E-09 Z=  0.5952959E-02  Total=      0.0060192
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170850E+02         XY= -0.44540238E-02         XZ=  0.25550882E-01
                YY= -0.10161932E+02         YZ=  0.29764791E-01         ZZ= -0.12203892E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37092578E-03 Y=  0.58360089E-12 Z= -0.26550472E-06   Total=     0.00037093
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12389984E+01         XY= -0.35047407E-02         XZ= -0.81803410E-02
                YY=  0.12460100E+01         YZ= -0.25086526E-05         ZZ=  0.12460041E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7848414E-03 Y= -0.7904585E-09 Z=  0.5952915E-02  Total=      0.0060044
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169790E+02         XY= -0.39242091E-02         XZ=  0.25853318E-01
                YY= -0.10161932E+02         YZ=  0.29764575E-01         ZZ= -0.12203893E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35034602E-02 Y=  0.25676185E-11 Z= -0.43369987E-06   Total=     0.00350346
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13122135E+01         XY=  0.33102902E-01         XZ=  0.27341663E-01
                YY=  0.12460097E+01         YZ= -0.40978498E-05         ZZ=  0.12460009E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3777941E-03 Y= -0.7894472E-09 Z=  0.5952852E-02  Total=      0.0059648
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165719E+02         XY= -0.18889727E-02         XZ=  0.27654108E-01
                YY= -0.10161932E+02         YZ=  0.29764260E-01         ZZ= -0.12203893E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60713156E-02 Y=  0.20333886E-11 Z= -0.54528397E-06   Total=     0.00607132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13607398E+01         XY=  0.57365619E-01         XZ=  0.52707143E-01
                YY=  0.12460105E+01         YZ= -0.51521710E-05         ZZ=  0.12459998E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1772121E-03 Y= -0.7890860E-09 Z=  0.5952795E-02  Total=      0.0059554
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160170E+02         XY=  0.88605869E-03         XZ=  0.30277094E-01
                YY= -0.10161931E+02         YZ=  0.29763974E-01         ZZ= -0.12203894E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63389275E-02 Y= -0.42233038E-12 Z= -0.44996957E-06   Total=     0.00633893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13657975E+01         XY=  0.59894185E-01         XZ=  0.58127419E-01
                YY=  0.12460114E+01         YZ= -0.42516008E-05         ZZ=  0.12460022E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6691394E-03 Y= -0.7896639E-09 Z=  0.5952762E-02  Total=      0.0059903
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155251E+02         XY=  0.33456951E-02         XZ=  0.32725898E-01
                YY= -0.10161931E+02         YZ=  0.29763806E-01         ZZ= -0.12203894E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41839301E-02 Y= -0.34213097E-11 Z= -0.28242549E-06   Total=     0.00418393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13250734E+01         XY=  0.39532410E-01         XZ=  0.41358063E-01
                YY=  0.12460110E+01         YZ= -0.26685640E-05         ZZ=  0.12460047E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9092724E-03 Y= -0.7934926E-09 Z=  0.5952736E-02  Total=      0.0060218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152850E+02         XY=  0.45463600E-02         XZ=  0.34062267E-01
                YY= -0.10161931E+02         YZ=  0.29763677E-01         ZZ= -0.12203894E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40969386E-03 Y= -0.54487183E-11 Z= -0.28006419E-06   Total=     0.00040969
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12537496E+01         XY=  0.38710459E-02         XZ=  0.86231210E-02
                YY=  0.12460098E+01         YZ= -0.26462704E-05         ZZ=  0.12460036E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8036015E-03 Y= -0.7932759E-09 Z=  0.5952691E-02  Total=      0.0060067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153906E+02         XY=  0.40180055E-02         XZ=  0.33765524E-01
                YY= -0.10161932E+02         YZ=  0.29763451E-01         ZZ= -0.12203895E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35539841E-02 Y= -0.55165761E-11 Z= -0.45483014E-06   Total=     0.00355398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11788468E+01         XY= -0.33580284E-01         XZ= -0.27691460E-01
                YY=  0.12460095E+01         YZ= -0.42975705E-05         ZZ=  0.12460003E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3895951E-03 Y= -0.7932037E-09 Z=  0.5952624E-02  Total=      0.0059654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158046E+02         XY=  0.19479736E-02         XZ=  0.31935376E-01
                YY= -0.10161932E+02         YZ=  0.29763120E-01         ZZ= -0.12203896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61924453E-02 Y= -0.35532621E-11 Z= -0.57265218E-06   Total=     0.00619245
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11289880E+01         XY= -0.58510128E-01         XZ= -0.53723416E-01
                YY=  0.12460104E+01         YZ= -0.54108115E-05         ZZ=  0.12459991E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1770110E-03 Y= -0.7922646E-09 Z=  0.5952564E-02  Total=      0.0059552
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163713E+02         XY= -0.88505679E-03         XZ=  0.29258983E-01
                YY= -0.10161931E+02         YZ=  0.29762820E-01         ZZ= -0.12203896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64848947E-02 Y= -0.36440879E-12 Z= -0.47450135E-06   Total=     0.00648489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11234622E+01         XY= -0.61273375E-01         XZ= -0.59426713E-01
                YY=  0.12460112E+01         YZ= -0.44833942E-05         ZZ=  0.12460016E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6807803E-03 Y= -0.7917589E-09 Z=  0.5952529E-02  Total=      0.0059913
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168751E+02         XY= -0.34039036E-02         XZ=  0.26752907E-01
                YY= -0.10161931E+02         YZ=  0.29762641E-01         ZZ= -0.12203896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42991955E-02 Y=  0.27874579E-11 Z= -0.29875567E-06   Total=     0.00429920
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11647653E+01         XY= -0.40621511E-01         XZ= -0.42448470E-01
                YY=  0.12460108E+01         YZ= -0.28228119E-05         ZZ=  0.12460042E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9284800E-03 Y= -0.7960211E-09 Z=  0.5952502E-02  Total=      0.0060245
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171227E+02         XY= -0.46424021E-02         XZ=  0.25376932E-01
                YY= -0.10161931E+02         YZ=  0.29762506E-01         ZZ= -0.12203896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45009812E-03 Y=  0.47700801E-11 Z= -0.29406665E-06   Total=     0.00045010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12375016E+01         XY= -0.42528108E-02         XZ= -0.90929500E-02
                YY=  0.12460096E+01         YZ= -0.27784904E-05         ZZ=  0.12460031E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8231885E-03 Y= -0.7958766E-09 Z=  0.5952454E-02  Total=      0.0060091
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170174E+02         XY= -0.41159443E-02         XZ=  0.25666551E-01
                YY= -0.10161932E+02         YZ=  0.29762270E-01         ZZ= -0.12203897E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36042833E-02 Y=  0.50594878E-11 Z= -0.47569962E-06   Total=     0.00360428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13141182E+01         XY=  0.34055542E-01         XZ=  0.28019122E-01
                YY=  0.12460093E+01         YZ= -0.44946707E-05         ZZ=  0.12459997E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4021894E-03 Y= -0.7963823E-09 Z=  0.5952385E-02  Total=      0.0059660
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165964E+02         XY= -0.20109488E-02         XZ=  0.27524747E-01
                YY= -0.10161932E+02         YZ=  0.29761924E-01         ZZ= -0.12203898E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63147451E-02 Y=  0.39040717E-11 Z= -0.60028976E-06   Total=     0.00631475
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13653394E+01         XY=  0.59665694E-01         XZ=  0.54725187E-01
                YY=  0.12460102E+01         YZ= -0.56718866E-05         ZZ=  0.12459984E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1761517E-03 Y= -0.7954431E-09 Z=  0.5952322E-02  Total=      0.0059549
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160181E+02         XY=  0.88075636E-03         XZ=  0.30253838E-01
                YY= -0.10161931E+02         YZ=  0.29761608E-01         ZZ= -0.12203898E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66328742E-02 Y=  0.21261115E-11 Z= -0.49963009E-06   Total=     0.00663287
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13713518E+01         XY=  0.62671579E-01         XZ=  0.60723208E-01
                YY=  0.12460111E+01         YZ= -0.47208056E-05         ZZ=  0.12460009E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6919411E-03 Y= -0.7944318E-09 Z=  0.5952284E-02  Total=      0.0059924
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155024E+02         XY=  0.34597037E-02         XZ=  0.32817207E-01
                YY= -0.10161931E+02         YZ=  0.29761419E-01         ZZ= -0.12203898E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44164347E-02 Y=  0.68492047E-12 Z= -0.31577977E-06   Total=     0.00441643
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13294666E+01         XY=  0.41729261E-01         XZ=  0.43543486E-01
                YY=  0.12460107E+01         YZ= -0.29836843E-05         ZZ=  0.12460037E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9473531E-03 Y= -0.7994164E-09 Z=  0.5952256E-02  Total=      0.0060272
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152469E+02         XY=  0.47367637E-02         XZ=  0.34232881E-01
                YY= -0.10161931E+02         YZ=  0.29761277E-01         ZZ= -0.12203899E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49156480E-03 Y=  0.22557625E-12 Z= -0.30899411E-06   Total=     0.00049156
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12552962E+01         XY=  0.46446142E-02         XZ=  0.95607330E-02
                YY=  0.12460094E+01         YZ= -0.29195735E-05         ZZ=  0.12460026E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8424905E-03 Y= -0.7989107E-09 Z=  0.5952207E-02  Total=      0.0060115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153518E+02         XY=  0.42124506E-02         XZ=  0.33949673E-01
                YY= -0.10161931E+02         YZ=  0.29761031E-01         ZZ= -0.12203900E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36549606E-02 Y=  0.82676649E-12 Z= -0.49802771E-06   Total=     0.00365496
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11769380E+01         XY= -0.34534373E-01         XZ= -0.28367574E-01
                YY=  0.12460090E+01         YZ= -0.47056776E-05         ZZ=  0.12459990E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4144254E-03 Y= -0.7977549E-09 Z=  0.5952134E-02  Total=      0.0059665
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157798E+02         XY=  0.20721252E-02         XZ=  0.32061725E-01
                YY= -0.10161931E+02         YZ=  0.29760668E-01         ZZ= -0.12203901E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64388417E-02 Y=  0.20467544E-11 Z= -0.62984228E-06   Total=     0.00643884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11243313E+01         XY= -0.60838238E-01         XZ= -0.55764852E-01
                YY=  0.12460100E+01         YZ= -0.59511348E-05         ZZ=  0.12459976E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1758263E-03 Y= -0.7974659E-09 Z=  0.5952068E-02  Total=      0.0059547
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163701E+02         XY= -0.87913359E-03         XZ=  0.29277859E-01
                YY= -0.10161931E+02         YZ=  0.29760336E-01         ZZ= -0.12203901E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67834980E-02 Y=  0.32156269E-11 Z= -0.52651909E-06   Total=     0.00678350
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11178189E+01         XY= -0.64094767E-01         XZ= -0.62061901E-01
                YY=  0.12460109E+01         YZ= -0.49748625E-05         ZZ=  0.12460002E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7038539E-03 Y= -0.7969602E-09 Z=  0.5952028E-02  Total=      0.0059935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168982E+02         XY= -0.35192714E-02         XZ=  0.26655395E-01
                YY= -0.10161931E+02         YZ=  0.29760136E-01         ZZ= -0.12203901E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45362560E-02 Y=  0.38038293E-11 Z= -0.33375652E-06   Total=     0.00453626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11602850E+01         XY= -0.42861407E-01         XZ= -0.44674358E-01
                YY=  0.12460105E+01         YZ= -0.31535151E-05         ZZ=  0.12460031E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9671605E-03 Y= -0.8017281E-09 Z=  0.5951998E-02  Total=      0.0060301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171615E+02         XY= -0.48358045E-02         XZ=  0.25198517E-01
                YY= -0.10161931E+02         YZ=  0.29759987E-01         ZZ= -0.12203902E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53464521E-03 Y=  0.36722400E-11 Z= -0.32392157E-06   Total=     0.00053465
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12359033E+01         XY= -0.50516651E-02         XZ= -0.10056801E-01
                YY=  0.12460092E+01         YZ= -0.30605892E-05         ZZ=  0.12460021E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8628075E-03 Y= -0.8017281E-09 Z=  0.5951946E-02  Total=      0.0060142
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170571E+02         XY= -0.43140397E-02         XZ=  0.25473819E-01
                YY= -0.10161931E+02         YZ=  0.29759730E-01         ZZ= -0.12203902E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37055527E-02 Y=  0.30845621E-11 Z= -0.51973256E-06   Total=     0.00370555
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13160312E+01         XY=  0.35012399E-01         XZ=  0.28693259E-01
                YY=  0.12460088E+01         YZ= -0.49107399E-05         ZZ=  0.12459983E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4276265E-03 Y= -0.8004278E-09 Z=  0.5951871E-02  Total=      0.0059672
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166219E+02         XY= -0.21381345E-02         XZ=  0.27390151E-01
                YY= -0.10161931E+02         YZ=  0.29759351E-01         ZZ= -0.12203903E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65643831E-02 Y=  0.24968145E-11 Z= -0.65847997E-06   Total=     0.00656438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13700563E+01         XY=  0.62024431E-01         XZ=  0.56790186E-01
                YY=  0.12460098E+01         YZ= -0.62217180E-05         ZZ=  0.12459968E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1746978E-03 Y= -0.7984050E-09 Z=  0.5951801E-02  Total=      0.0059544
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160197E+02         XY=  0.87348720E-03         XZ=  0.30228080E-01
                YY= -0.10161931E+02         YZ=  0.29759002E-01         ZZ= -0.12203904E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69365373E-02 Y=  0.22554302E-11 Z= -0.55231071E-06   Total=     0.00693654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13770897E+01         XY=  0.65540779E-01         XZ=  0.63399459E-01
                YY=  0.12460108E+01         YZ= -0.52185661E-05         ZZ=  0.12459996E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7151775E-03 Y= -0.7972492E-09 Z=  0.5951759E-02  Total=      0.0059946
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154792E+02         XY=  0.35758854E-02         XZ=  0.32909749E-01
                YY= -0.10161931E+02         YZ=  0.29758792E-01         ZZ= -0.12203904E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46585549E-02 Y=  0.23811187E-11 Z= -0.35061652E-06   Total=     0.00465855
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13340414E+01         XY=  0.44016965E-01         XZ=  0.45813208E-01
                YY=  0.12460103E+01         YZ= -0.33128316E-05         ZZ=  0.12460026E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9865667E-03 Y= -0.8016559E-09 Z=  0.5951728E-02  Total=      0.0060329
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152078E+02         XY=  0.49328314E-02         XZ=  0.34408081E-01
                YY= -0.10161931E+02         YZ=  0.29758636E-01         ZZ= -0.12203904E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57935044E-03 Y=  0.25617041E-11 Z= -0.33818847E-06   Total=     0.00057935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12569544E+01         XY=  0.54740684E-02         XZ=  0.10555064E-01
                YY=  0.12460090E+01         YZ= -0.31954025E-05         ZZ=  0.12460015E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8828184E-03 Y= -0.8020171E-09 Z=  0.5951674E-02  Total=      0.0060168
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153115E+02         XY=  0.44140902E-02         XZ=  0.34140122E-01
                YY= -0.10161931E+02         YZ=  0.29758369E-01         ZZ= -0.12203905E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37559486E-02 Y=  0.23576304E-11 Z= -0.54173161E-06   Total=     0.00375595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11750289E+01         XY= -0.35488571E-01         XZ= -0.29035795E-01
                YY=  0.12460085E+01         YZ= -0.51186085E-05         ZZ=  0.12459976E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4404929E-03 Y= -0.8022338E-09 Z=  0.5951595E-02  Total=      0.0059679
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157538E+02         XY=  0.22024627E-02         XZ=  0.32193806E-01
                YY= -0.10161931E+02         YZ=  0.29757974E-01         ZZ= -0.12203906E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66911772E-02 Y=  0.15010283E-11 Z= -0.68831925E-06   Total=     0.00669118
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11195622E+01         XY= -0.63222462E-01         XZ= -0.57850205E-01
                YY=  0.12460095E+01         YZ= -0.65036685E-05         ZZ=  0.12459960E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1740388E-03 Y= -0.8015836E-09 Z=  0.5951522E-02  Total=      0.0059541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163684E+02         XY= -0.87019623E-03         XZ=  0.29299826E-01
                YY= -0.10161931E+02         YZ=  0.29757608E-01         ZZ= -0.12203906E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70917388E-02 Y=  0.11308005E-12 Z= -0.57953060E-06   Total=     0.00709174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11119934E+01         XY= -0.67007220E-01         XZ= -0.64776356E-01
                YY=  0.12460106E+01         YZ= -0.54757763E-05         ZZ=  0.12459988E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7271537E-03 Y= -0.8021615E-09 Z=  0.5951478E-02  Total=      0.0059957
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169216E+02         XY= -0.36357707E-02         XZ=  0.26557253E-01
                YY= -0.10161930E+02         YZ=  0.29757387E-01         ZZ= -0.12203906E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47830352E-02 Y= -0.12984365E-11 Z= -0.36842992E-06   Total=     0.00478304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11556209E+01         XY= -0.45193133E-01         XZ= -0.46985181E-01
                YY=  0.12460102E+01         YZ= -0.34811758E-05         ZZ=  0.12460020E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1006781E-02 Y= -0.8076518E-09 Z=  0.5951445E-02  Total=      0.0060360
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172012E+02         XY= -0.50339046E-02         XZ=  0.25016056E-01
                YY= -0.10161931E+02         YZ=  0.29757224E-01         ZZ= -0.12203907E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62535708E-03 Y= -0.20799618E-11 Z= -0.35284553E-06   Total=     0.00062536
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12341884E+01         XY= -0.59087681E-02         XZ= -0.11079596E-01
                YY=  0.12460088E+01         YZ= -0.33339311E-05         ZZ=  0.12460010E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9036981E-03 Y= -0.8091689E-09 Z=  0.5951390E-02  Total=      0.0060196
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170981E+02         XY= -0.45184922E-02         XZ=  0.25275200E-01
                YY= -0.10161931E+02         YZ=  0.29756946E-01         ZZ= -0.12203908E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38064855E-02 Y= -0.17967761E-11 Z= -0.56401078E-06   Total=     0.00380649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13179379E+01         XY=  0.35966076E-01         XZ=  0.29356095E-01
                YY=  0.12460083E+01         YZ= -0.53291513E-05         ZZ=  0.12459969E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4541656E-03 Y= -0.8104692E-09 Z=  0.5951307E-02  Total=      0.0059686
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166486E+02         XY= -0.22708301E-02         XZ=  0.27250066E-01
                YY= -0.10161931E+02         YZ=  0.29756534E-01         ZZ= -0.12203909E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68195654E-02 Y= -0.52550524E-12 Z= -0.71870445E-06   Total=     0.00681957
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13748779E+01         XY=  0.64435554E-01         XZ=  0.58895019E-01
                YY=  0.12460093E+01         YZ= -0.67907843E-05         ZZ=  0.12459952E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1727418E-03 Y= -0.8101803E-09 Z=  0.5951230E-02  Total=      0.0059537
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160217E+02         XY=  0.86370716E-03         XZ=  0.30199282E-01
                YY= -0.10161931E+02         YZ=  0.29756150E-01         ZZ= -0.12203909E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72494418E-02 Y=  0.10973302E-11 Z= -0.60750581E-06   Total=     0.00724944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13830022E+01         XY=  0.68497298E-01         XZ=  0.66150767E-01
                YY=  0.12460104E+01         YZ= -0.57400962E-05         ZZ=  0.12459981E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7387076E-03 Y= -0.8092411E-09 Z=  0.5951184E-02  Total=      0.0059969
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154558E+02         XY=  0.36935359E-02         XZ=  0.33002789E-01
                YY= -0.10161930E+02         YZ=  0.29755917E-01         ZZ= -0.12203909E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49100313E-02 Y=  0.21273632E-11 Z= -0.38700904E-06   Total=     0.00491003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13387930E+01         XY=  0.46393072E-01         XZ=  0.48164009E-01
                YY=  0.12460100E+01         YZ= -0.36566955E-05         ZZ=  0.12460014E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1026758E-02 Y= -0.8085187E-09 Z=  0.5951150E-02  Total=      0.0060391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151677E+02         XY=  0.51337896E-02         XZ=  0.34587037E-01
                YY= -0.10161930E+02         YZ=  0.29755747E-01         ZZ= -0.12203910E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67299568E-03 Y=  0.17641656E-11 Z= -0.36835173E-06   Total=     0.00067300
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12587233E+01         XY=  0.63588876E-02         XZ=  0.11605183E-01
                YY=  0.12460085E+01         YZ= -0.34804129E-05         ZZ=  0.12460004E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9244332E-03 Y= -0.8093856E-09 Z=  0.5951092E-02  Total=      0.0060225
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152700E+02         XY=  0.46221642E-02         XZ=  0.34336046E-01
                YY= -0.10161931E+02         YZ=  0.29755458E-01         ZZ= -0.12203911E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38568332E-02 Y= -0.21375120E-12 Z= -0.58745926E-06   Total=     0.00385683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11731217E+01         XY= -0.36441793E-01         XZ= -0.29694982E-01
                YY=  0.12460080E+01         YZ= -0.55506958E-05         ZZ=  0.12459961E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4676615E-03 Y= -0.8100358E-09 Z=  0.5951006E-02  Total=      0.0059694
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157268E+02         XY=  0.23383058E-02         XZ=  0.32330885E-01
                YY= -0.10161931E+02         YZ=  0.29755028E-01         ZZ= -0.12203912E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69492111E-02 Y= -0.32580260E-11 Z= -0.75049787E-06   Total=     0.00694921
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11146854E+01         XY= -0.65660529E-01         XZ= -0.59976686E-01
                YY=  0.12460091E+01         YZ= -0.70912129E-05         ZZ=  0.12459944E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1717596E-03 Y= -0.8108304E-09 Z=  0.5950926E-02  Total=      0.0059534
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163663E+02         XY= -0.85879980E-03         XZ=  0.29324305E-01
                YY= -0.10161930E+02         YZ=  0.29754626E-01         ZZ= -0.12203912E+02
  Expectation value of momentum operator [a. u.]
    X= -0.74092945E-02 Y= -0.62252730E-11 Z= -0.63661692E-06   Total=     0.00740929
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11059919E+01         XY= -0.70007687E-01         XZ= -0.67566180E-01
                YY=  0.12460102E+01         YZ= -0.60152185E-05         ZZ=  0.12459973E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7507608E-03 Y= -0.8122030E-09 Z=  0.5950877E-02  Total=      0.0059980
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169453E+02         XY= -0.37538058E-02         XZ=  0.26458089E-01
                YY= -0.10161930E+02         YZ=  0.29754382E-01         ZZ= -0.12203912E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50391657E-02 Y= -0.78652131E-11 Z= -0.40603542E-06   Total=     0.00503917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11507801E+01         XY= -0.47613215E-01         XZ= -0.49376495E-01
                YY=  0.12460098E+01         YZ= -0.38365525E-05         ZZ=  0.12460008E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1047389E-02 Y= -0.8137201E-09 Z=  0.5950841E-02  Total=      0.0060423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172419E+02         XY= -0.52369479E-02         XZ=  0.24829356E-01
                YY= -0.10161930E+02         YZ=  0.29754204E-01         ZZ= -0.12203913E+02
  Expectation value of momentum operator [a. u.]
    X= -0.72185128E-03 Y= -0.74082995E-11 Z= -0.38382208E-06   Total=     0.00072185
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12323642E+01         XY= -0.68205062E-02         XZ= -0.12156853E-01
                YY=  0.12460083E+01         YZ= -0.36266628E-05         ZZ=  0.12459998E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9458780E-03 Y= -0.8140090E-09 Z=  0.5950781E-02  Total=      0.0060255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171404E+02         XY= -0.47293922E-02         XZ=  0.25070688E-01
                YY= -0.10161931E+02         YZ=  0.29753904E-01         ZZ= -0.12203914E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39074547E-02 Y= -0.49736285E-11 Z= -0.61103990E-06   Total=     0.00390745
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13198451E+01         XY=  0.36920097E-01         XZ=  0.30011742E-01
                YY=  0.12460077E+01         YZ= -0.57735397E-05         ZZ=  0.12459954E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4817963E-03 Y= -0.8129254E-09 Z=  0.5950691E-02  Total=      0.0059702
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166763E+02         XY= -0.24089835E-02         XZ=  0.27104644E-01
                YY= -0.10161931E+02         YZ=  0.29753455E-01         ZZ= -0.12203915E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70806325E-02 Y= -0.15854401E-11 Z= -0.78300835E-06   Total=     0.00708063
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13798106E+01         XY=  0.66902282E-01         XZ=  0.61043130E-01
                YY=  0.12460088E+01         YZ= -0.73983779E-05         ZZ=  0.12459935E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1703188E-03 Y= -0.8122030E-09 Z=  0.5950607E-02  Total=      0.0059530
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160242E+02         XY=  0.85159178E-03         XZ=  0.30167723E-01
                YY= -0.10161930E+02         YZ=  0.29753034E-01         ZZ= -0.12203915E+02
  Expectation value of momentum operator [a. u.]
    X=  0.75718707E-02 Y=  0.12366841E-11 Z= -0.66688684E-06   Total=     0.00757187
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13890946E+01         XY=  0.71543810E-01         XZ=  0.68979689E-01
                YY=  0.12460100E+01         YZ= -0.63011652E-05         ZZ=  0.12459965E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7625860E-03 Y= -0.8120585E-09 Z=  0.5950556E-02  Total=      0.0059992
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154320E+02         XY=  0.38129282E-02         XZ=  0.33096694E-01
                YY= -0.10161930E+02         YZ=  0.29752777E-01         ZZ= -0.12203916E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51710588E-02 Y=  0.21479121E-11 Z= -0.42635760E-06   Total=     0.00517106
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13437251E+01         XY=  0.48859425E-01         XZ=  0.50597381E-01
                YY=  0.12460096E+01         YZ= -0.40284857E-05         ZZ=  0.12460002E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1067995E-02 Y= -0.8118418E-09 Z=  0.5950519E-02  Total=      0.0060456
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151266E+02         XY=  0.53399721E-02         XZ=  0.34770157E-01
                YY= -0.10161930E+02         YZ=  0.29752592E-01         ZZ= -0.12203916E+02
  Expectation value of momentum operator [a. u.]
    X=  0.77257305E-03 Y=  0.60859701E-12 Z= -0.40077071E-06   Total=     0.00077257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12606043E+01         XY=  0.72997574E-02         XZ=  0.12711331E-01
                YY=  0.12460080E+01         YZ= -0.37867375E-05         ZZ=  0.12459991E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9674043E-03 Y= -0.8123475E-09 Z=  0.5950456E-02  Total=      0.0060286
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152271E+02         XY=  0.48370195E-02         XZ=  0.34537849E-01
                YY= -0.10161930E+02         YZ=  0.29752280E-01         ZZ= -0.12203917E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39576977E-02 Y= -0.28216064E-11 Z= -0.63656525E-06   Total=     0.00395770
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11712149E+01         XY= -0.37394824E-01         XZ= -0.30346328E-01
                YY=  0.12460075E+01         YZ= -0.60147014E-05         ZZ=  0.12459946E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4959910E-03 Y= -0.8127809E-09 Z=  0.5950363E-02  Total=      0.0059710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156985E+02         XY=  0.24799533E-02         XZ=  0.32473301E-01
                YY= -0.10161930E+02         YZ=  0.29751812E-01         ZZ= -0.12203918E+02
  Expectation value of momentum operator [a. u.]
    X= -0.72132026E-02 Y= -0.66788677E-11 Z= -0.81788013E-06   Total=     0.00721320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11096959E+01         XY= -0.68154887E-01         XZ= -0.62147051E-01
                YY=  0.12460086E+01         YZ= -0.77279104E-05         ZZ=  0.12459925E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1689520E-03 Y= -0.8134311E-09 Z=  0.5950275E-02  Total=      0.0059527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163635E+02         XY= -0.84476206E-03         XZ=  0.29351507E-01
                YY= -0.10161930E+02         YZ=  0.29751371E-01         ZZ= -0.12203919E+02
  Expectation value of momentum operator [a. u.]
    X= -0.77365946E-02 Y= -0.92117846E-11 Z= -0.69936193E-06   Total=     0.00773659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10998062E+01         XY= -0.73100225E-01         XZ= -0.70435644E-01
                YY=  0.12460098E+01         YZ= -0.66080963E-05         ZZ=  0.12459957E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7746748E-03 Y= -0.8142980E-09 Z=  0.5950221E-02  Total=      0.0060004
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169693E+02         XY= -0.38733758E-02         XZ=  0.26357924E-01
                YY= -0.10161930E+02         YZ=  0.29751101E-01         ZZ= -0.12203919E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53052048E-02 Y= -0.91542990E-11 Z= -0.44817506E-06   Total=     0.00530520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11457521E+01         XY= -0.50126921E-01         XZ= -0.51853746E-01
                YY=  0.12460094E+01         YZ= -0.42347234E-05         ZZ=  0.12459995E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1089032E-02 Y= -0.8153094E-09 Z=  0.5950182E-02  Total=      0.0060490
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172837E+02         XY= -0.54451596E-02         XZ=  0.24638204E-01
                YY= -0.10161930E+02         YZ=  0.29750907E-01         ZZ= -0.12203920E+02
  Expectation value of momentum operator [a. u.]
    X= -0.82473293E-03 Y= -0.63094454E-11 Z= -0.41858423E-06   Total=     0.00082473
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12304192E+01         XY= -0.77925969E-02         XZ= -0.13294521E-01
                YY=  0.12460078E+01         YZ= -0.39551065E-05         ZZ=  0.12459985E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9894398E-03 Y= -0.8153094E-09 Z=  0.5950117E-02  Total=      0.0060318
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171840E+02         XY= -0.49472008E-02         XZ=  0.24859818E-01
                YY= -0.10161930E+02         YZ=  0.29750583E-01         ZZ= -0.12203921E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40079144E-02 Y= -0.16738040E-11 Z= -0.66293103E-06   Total=     0.00400791
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13217427E+01         XY=  0.37869303E-01         XZ=  0.30654695E-01
                YY=  0.12460072E+01         YZ= -0.62638104E-05         ZZ=  0.12459937E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5106510E-03 Y= -0.8145147E-09 Z=  0.5950019E-02  Total=      0.0059719
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167052E+02         XY= -0.25532571E-02         XZ=  0.26953202E-01
                YY= -0.10161930E+02         YZ=  0.29750094E-01         ZZ= -0.12203922E+02
  Expectation value of momentum operator [a. u.]
    X=  0.73472071E-02 Y=  0.29658698E-11 Z= -0.85401448E-06   Total=     0.00734721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13848474E+01         XY=  0.69421046E-01         XZ=  0.63230490E-01
                YY=  0.12460083E+01         YZ= -0.80692486E-05         ZZ=  0.12459916E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1672714E-03 Y= -0.8142980E-09 Z=  0.5949927E-02  Total=      0.0059523
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160274E+02         XY=  0.83635497E-03         XZ=  0.30132571E-01
                YY= -0.10161930E+02         YZ=  0.29749632E-01         ZZ= -0.12203922E+02
  Expectation value of momentum operator [a. u.]
    X=  0.79036965E-02 Y=  0.57948909E-11 Z= -0.73342572E-06   Total=     0.00790370
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13953645E+01         XY=  0.74679110E-01         XZ=  0.71884514E-01
                YY=  0.12460096E+01         YZ= -0.69298261E-05         ZZ=  0.12459948E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7866520E-03 Y= -0.8138645E-09 Z=  0.5949870E-02  Total=      0.0060016
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154081E+02         XY=  0.39332578E-02         XZ=  0.33190592E-01
                YY= -0.10161929E+02         YZ=  0.29749347E-01         ZZ= -0.12203922E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54417872E-02 Y=  0.57600404E-11 Z= -0.47161638E-06   Total=     0.00544179
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13488404E+01         XY=  0.51417437E-01         XZ=  0.53114317E-01
                YY=  0.12460091E+01         YZ= -0.44560864E-05         ZZ=  0.12459988E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1110134E-02 Y= -0.8134311E-09 Z=  0.5949829E-02  Total=      0.0060525
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150846E+02         XY=  0.55506657E-02         XZ=  0.34956646E-01
                YY= -0.10161930E+02         YZ=  0.29749144E-01         ZZ= -0.12203923E+02
  Expectation value of momentum operator [a. u.]
    X=  0.87847127E-03 Y=  0.30353738E-11 Z= -0.43807172E-06   Total=     0.00087847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12626047E+01         XY=  0.83003506E-02         XZ=  0.13876983E-01
                YY=  0.12460075E+01         YZ= -0.41391577E-05         ZZ=  0.12459978E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1011624E-02 Y= -0.8128532E-09 Z=  0.5949762E-02  Total=      0.0060352
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151830E+02         XY=  0.50581197E-02         XZ=  0.34744907E-01
                YY= -0.10161930E+02         YZ=  0.29748807E-01         ZZ= -0.12203924E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40580091E-02 Y= -0.10454055E-11 Z= -0.69125023E-06   Total=     0.00405801
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11693184E+01         XY= -0.38342629E-01         XZ= -0.30984673E-01
                YY=  0.12460068E+01         YZ= -0.65313815E-05         ZZ=  0.12459928E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5254180E-03 Y= -0.8135756E-09 Z=  0.5949660E-02  Total=      0.0059728
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156692E+02         XY=  0.26270881E-02         XZ=  0.32620662E-01
                YY= -0.10161930E+02         YZ=  0.29748298E-01         ZZ= -0.12203925E+02
  Expectation value of momentum operator [a. u.]
    X= -0.74825981E-02 Y= -0.45640054E-11 Z= -0.89228540E-06   Total=     0.00748260
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11046043E+01         XY= -0.70700306E-01         XZ= -0.64355603E-01
                YY=  0.12460080E+01         YZ= -0.84309176E-05         ZZ=  0.12459905E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1656373E-03 Y= -0.8132144E-09 Z=  0.5949563E-02  Total=      0.0059519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163603E+02         XY= -0.82818851E-03         XZ=  0.29381277E-01
                YY= -0.10161930E+02         YZ=  0.29747813E-01         ZZ= -0.12203926E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80731784E-02 Y= -0.58491841E-11 Z= -0.76923454E-06   Total=     0.00807318
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10934450E+01         XY= -0.76280481E-01         XZ= -0.73379677E-01
                YY=  0.12460094E+01         YZ= -0.72682660E-05         ZZ=  0.12459938E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7988844E-03 Y= -0.8123475E-09 Z=  0.5949503E-02  Total=      0.0060029
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169937E+02         XY= -0.39944241E-02         XZ=  0.26256798E-01
                YY= -0.10161929E+02         YZ=  0.29747514E-01         ZZ= -0.12203926E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55808553E-02 Y= -0.42013081E-11 Z= -0.49593035E-06   Total=     0.00558086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11405423E+01         XY= -0.52731441E-01         XZ= -0.54413329E-01
                YY=  0.12460089E+01         YZ= -0.46859018E-05         ZZ=  0.12459980E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1131678E-02 Y= -0.8127087E-09 Z=  0.5949461E-02  Total=      0.0060561
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173264E+02         XY= -0.56583914E-02         XZ=  0.24442761E-01
                YY= -0.10161929E+02         YZ=  0.29747302E-01         ZZ= -0.12203927E+02
  Expectation value of momentum operator [a. u.]
    X= -0.93387760E-03 Y= -0.19240513E-12 Z= -0.45778276E-06   Total=     0.00093388
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12283558E+01         XY= -0.88238646E-02         XZ= -0.14490771E-01
                YY=  0.12460072E+01         YZ= -0.43254260E-05         ZZ=  0.12459970E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1034349E-02 Y= -0.8130699E-09 Z=  0.5949391E-02  Total=      0.0060386
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172290E+02         XY= -0.51717446E-02         XZ=  0.24642800E-01
                YY= -0.10161930E+02         YZ=  0.29746951E-01         ZZ= -0.12203928E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41078620E-02 Y=  0.45863687E-11 Z= -0.71990360E-06   Total=     0.00410786
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13236305E+01         XY=  0.38813671E-01         XZ=  0.31285246E-01
                YY=  0.12460065E+01         YZ= -0.68020691E-05         ZZ=  0.12459919E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5406986E-03 Y= -0.8126365E-09 Z=  0.5949284E-02  Total=      0.0059738
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167354E+02         XY= -0.27034948E-02         XZ=  0.26795937E-01
                YY= -0.10161930E+02         YZ=  0.29746420E-01         ZZ= -0.12203929E+02
  Expectation value of momentum operator [a. u.]
    X=  0.76192348E-02 Y=  0.82152507E-11 Z= -0.93152200E-06   Total=     0.00761923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13899872E+01         XY=  0.71991336E-01         XZ=  0.65456452E-01
                YY=  0.12460077E+01         YZ= -0.88015428E-05         ZZ=  0.12459894E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1636253E-03 Y= -0.8119140E-09 Z=  0.5949183E-02  Total=      0.0059514
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160311E+02         XY=  0.81812428E-03         XZ=  0.30093983E-01
                YY= -0.10161929E+02         YZ=  0.29745912E-01         ZZ= -0.12203930E+02
  Expectation value of momentum operator [a. u.]
    X=  0.82448830E-02 Y=  0.92688368E-11 Z= -0.80649682E-06   Total=     0.00824488
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14018113E+01         XY=  0.77902855E-01         XZ=  0.74864337E-01
                YY=  0.12460091E+01         YZ= -0.76202172E-05         ZZ=  0.12459928E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8109279E-03 Y= -0.8122030E-09 Z=  0.5949120E-02  Total=      0.0060041
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153839E+02         XY=  0.40546376E-02         XZ=  0.33284593E-01
                YY= -0.10161929E+02         YZ=  0.29745597E-01         ZZ= -0.12203930E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57222334E-02 Y=  0.74128523E-11 Z= -0.52177755E-06   Total=     0.00572223
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13541393E+01         XY=  0.54067270E-01         XZ=  0.55714132E-01
                YY=  0.12460087E+01         YZ= -0.49300252E-05         ZZ=  0.12459972E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1153199E-02 Y= -0.8122752E-09 Z=  0.5949075E-02  Total=      0.0060598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150416E+02         XY=  0.57659910E-02         XZ=  0.35146585E-01
                YY= -0.10161929E+02         YZ=  0.29745375E-01         ZZ= -0.12203931E+02
  Expectation value of momentum operator [a. u.]
    X=  0.99074950E-03 Y=  0.35209048E-11 Z= -0.47903901E-06   Total=     0.00099075
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12647255E+01         XY=  0.93612262E-02         XZ=  0.15101801E-01
                YY=  0.12460069E+01         YZ= -0.45262368E-05         ZZ=  0.12459962E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1057122E-02 Y= -0.8119140E-09 Z=  0.5949003E-02  Total=      0.0060422
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151376E+02         XY=  0.52856076E-02         XZ=  0.34957291E-01
                YY= -0.10161929E+02         YZ=  0.29745011E-01         ZZ= -0.12203932E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41577121E-02 Y= -0.72796341E-12 Z= -0.75034976E-06   Total=     0.00415771
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11674333E+01         XY= -0.39284687E-01         XZ= -0.31610210E-01
                YY=  0.12460062E+01         YZ= -0.70897873E-05         ZZ=  0.12459909E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5559744E-03 Y= -0.8114806E-09 Z=  0.5948892E-02  Total=      0.0059748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156388E+02         XY=  0.27798698E-02         XZ=  0.32773032E-01
                YY= -0.10161930E+02         YZ=  0.29744458E-01         ZZ= -0.12203933E+02
  Expectation value of momentum operator [a. u.]
    X= -0.77574000E-02 Y= -0.35833480E-11 Z= -0.97275754E-06   Total=     0.00775740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10994104E+01         XY= -0.73296808E-01         XZ= -0.66602737E-01
                YY=  0.12460074E+01         YZ= -0.91912602E-05         ZZ=  0.12459883E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1617852E-03 Y= -0.8116973E-09 Z=  0.5948786E-02  Total=      0.0059510
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163566E+02         XY= -0.80892791E-03         XZ=  0.29413661E-01
                YY= -0.10161929E+02         YZ=  0.29743926E-01         ZZ= -0.12203934E+02
  Expectation value of momentum operator [a. u.]
    X= -0.84191362E-02 Y= -0.39619902E-11 Z= -0.84541394E-06   Total=     0.00841914
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10869065E+01         XY= -0.79549309E-01         XZ= -0.76399124E-01
                YY=  0.12460089E+01         YZ= -0.79880408E-05         ZZ=  0.12459918E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8233675E-03 Y= -0.8119863E-09 Z=  0.5948719E-02  Total=      0.0060054
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170183E+02         XY= -0.41168397E-02         XZ=  0.26154723E-01
                YY= -0.10161929E+02         YZ=  0.29743595E-01         ZZ= -0.12203934E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58662802E-02 Y= -0.18730627E-11 Z= -0.54841942E-06   Total=     0.00586628
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11351477E+01         XY= -0.55428315E-01         XZ= -0.57056499E-01
                YY=  0.12460084E+01         YZ= -0.51818320E-05         ZZ=  0.12459964E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1175318E-02 Y= -0.8111194E-09 Z=  0.5948673E-02  Total=      0.0060637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173702E+02         XY= -0.58765937E-02         XZ=  0.24242993E-01
                YY= -0.10161929E+02         YZ=  0.29743362E-01         ZZ= -0.12203935E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10494606E-02 Y=  0.16402738E-11 Z= -0.50039659E-06   Total=     0.00104946
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12261706E+01         XY= -0.99159659E-02         XZ= -0.15746890E-01
                YY=  0.12460066E+01         YZ= -0.47280528E-05         ZZ=  0.12459954E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1080606E-02 Y= -0.8111916E-09 Z=  0.5948597E-02  Total=      0.0060460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172754E+02         XY= -0.54030301E-02         XZ=  0.24419557E-01
                YY= -0.10161929E+02         YZ=  0.29742983E-01         ZZ= -0.12203936E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42071931E-02 Y=  0.49960184E-11 Z= -0.78093471E-06   Total=     0.00420719
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13255066E+01         XY=  0.39752214E-01         XZ=  0.31902654E-01
                YY=  0.12460058E+01         YZ= -0.73787260E-05         ZZ=  0.12459899E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5719442E-03 Y= -0.8119140E-09 Z=  0.5948482E-02  Total=      0.0059759
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167667E+02         XY= -0.28597228E-02         XZ=  0.26632756E-01
                YY= -0.10161929E+02         YZ=  0.29742406E-01         ZZ= -0.12203937E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78967541E-02 Y=  0.67710469E-11 Z= -0.10146992E-05   Total=     0.00789675
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13952306E+01         XY=  0.74613513E-01         XZ=  0.67721365E-01
                YY=  0.12460071E+01         YZ= -0.95874651E-05         ZZ=  0.12459872E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1593829E-03 Y= -0.8134311E-09 Z=  0.5948370E-02  Total=      0.0059505
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160355E+02         XY=  0.79691235E-03         XZ=  0.30051895E-01
                YY= -0.10161929E+02         YZ=  0.29741850E-01         ZZ= -0.12203938E+02
  Expectation value of momentum operator [a. u.]
    X=  0.85956372E-02 Y=  0.62896656E-11 Z= -0.88548917E-06   Total=     0.00859564
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14084387E+01         XY=  0.81217001E-01         XZ=  0.77920827E-01
                YY=  0.12460086E+01         YZ= -0.83666115E-05         ZZ=  0.12459907E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8354365E-03 Y= -0.8141535E-09 Z=  0.5948301E-02  Total=      0.0060067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153595E+02         XY=  0.41771806E-02         XZ=  0.33378720E-01
                YY= -0.10161928E+02         YZ=  0.29741501E-01         ZZ= -0.12203938E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60127359E-02 Y=  0.38572437E-11 Z= -0.57629328E-06   Total=     0.00601274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13596281E+01         XY=  0.56812120E-01         XZ=  0.58399581E-01
                YY=  0.12460081E+01         YZ= -0.54451540E-05         ZZ=  0.12459955E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1197241E-02 Y= -0.8135033E-09 Z=  0.5948252E-02  Total=      0.0060675
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149977E+02         XY=  0.59862018E-02         XZ=  0.35340118E-01
                YY= -0.10161929E+02         YZ=  0.29741258E-01         ZZ= -0.12203939E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11097845E-02 Y=  0.56083668E-12 Z= -0.52300625E-06   Total=     0.00110978
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12669740E+01         XY=  0.10485944E-01         XZ=  0.16388940E-01
                YY=  0.12460062E+01         YZ= -0.49416920E-05         ZZ=  0.12459946E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1103976E-02 Y= -0.8142980E-09 Z=  0.5948173E-02  Total=      0.0060498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150909E+02         XY=  0.55198783E-02         XZ=  0.35175269E-01
                YY= -0.10161929E+02         YZ=  0.29740865E-01         ZZ= -0.12203940E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42565098E-02 Y= -0.22462989E-11 Z= -0.81299907E-06   Total=     0.00425651
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11655653E+01         XY= -0.40218189E-01         XZ= -0.32220322E-01
                YY=  0.12460054E+01         YZ= -0.76817505E-05         ZZ=  0.12459889E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5877588E-03 Y= -0.8163930E-09 Z=  0.5948053E-02  Total=      0.0059770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156071E+02         XY=  0.29387919E-02         XZ=  0.32930775E-01
                YY= -0.10161929E+02         YZ=  0.29740264E-01         ZZ= -0.12203942E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80374910E-02 Y= -0.35297211E-11 Z= -0.10582238E-05   Total=     0.00803749
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10941165E+01         XY= -0.75943284E-01         XZ= -0.68887219E-01
                YY=  0.12460067E+01         YZ= -0.99987993E-05         ZZ=  0.12459860E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1572922E-03 Y= -0.8166097E-09 Z=  0.5947937E-02  Total=      0.0059500
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163522E+02         XY= -0.78646283E-03         XZ=  0.29449058E-01
                YY= -0.10161929E+02         YZ=  0.29739682E-01         ZZ= -0.12203942E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87745737E-02 Y= -0.29698135E-11 Z= -0.92661086E-06   Total=     0.00877457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10801889E+01         XY= -0.82907706E-01         XZ= -0.79494582E-01
                YY=  0.12460083E+01         YZ= -0.87552328E-05         ZZ=  0.12459896E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8480323E-03 Y= -0.8170431E-09 Z=  0.5947864E-02  Total=      0.0060080
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170431E+02         XY= -0.42401634E-02         XZ=  0.26052058E-01
                YY= -0.10161928E+02         YZ=  0.29739317E-01         ZZ= -0.12203942E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61617773E-02 Y= -0.10157160E-11 Z= -0.60415952E-06   Total=     0.00616178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11295627E+01         XY= -0.58220358E-01         XZ= -0.59785543E-01
                YY=  0.12460078E+01         YZ= -0.57084930E-05         ZZ=  0.12459946E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1219885E-02 Y= -0.8172599E-09 Z=  0.5947813E-02  Total=      0.0060716
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174149E+02         XY= -0.60994275E-02         XZ=  0.24039159E-01
                YY= -0.10161928E+02         YZ=  0.29739063E-01         ZZ= -0.12203943E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11718760E-02 Y=  0.13920584E-11 Z= -0.54487292E-06   Total=     0.00117188
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12238563E+01         XY= -0.11072624E-01         XZ= -0.17066155E-01
                YY=  0.12460059E+01         YZ= -0.51482960E-05         ZZ=  0.12459937E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1128171E-02 Y= -0.8171876E-09 Z=  0.5947731E-02  Total=      0.0060538
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173231E+02         XY= -0.56408592E-02         XZ=  0.24190221E-01
                YY= -0.10161929E+02         YZ=  0.29738655E-01         ZZ= -0.12203945E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43055447E-02 Y=  0.32727477E-11 Z= -0.84457607E-06   Total=     0.00430554
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13273641E+01         XY=  0.40681502E-01         XZ=  0.32503672E-01
                YY=  0.12460050E+01         YZ= -0.79800646E-05         ZZ=  0.12459878E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6043712E-03 Y= -0.8178378E-09 Z=  0.5947606E-02  Total=      0.0059782
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167993E+02         XY= -0.30218581E-02         XZ=  0.26463677E-01
                YY= -0.10161929E+02         YZ=  0.29738030E-01         ZZ= -0.12203946E+02
  Expectation value of momentum operator [a. u.]
    X=  0.81795442E-02 Y=  0.40118429E-11 Z= -0.11022730E-05   Total=     0.00817954
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14005736E+01         XY=  0.77285492E-01         XZ=  0.70022989E-01
                YY=  0.12460064E+01         YZ= -0.10414941E-04         ZZ=  0.12459847E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1545502E-03 Y= -0.8177655E-09 Z=  0.5947485E-02  Total=      0.0059495
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160405E+02         XY=  0.77274923E-03         XZ=  0.30006262E-01
                YY= -0.10161928E+02         YZ=  0.29737421E-01         ZZ= -0.12203947E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89559378E-02 Y=  0.35492047E-11 Z= -0.96921337E-06   Total=     0.00895594
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14152465E+01         XY=  0.84621349E-01         XZ=  0.81053354E-01
                YY=  0.12460080E+01         YZ= -0.91577140E-05         ZZ=  0.12459885E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8601878E-03 Y= -0.8184880E-09 Z=  0.5947408E-02  Total=      0.0060093
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153349E+02         XY=  0.43009370E-02         XZ=  0.33472926E-01
                YY= -0.10161928E+02         YZ=  0.29737037E-01         ZZ= -0.12203947E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63134560E-02 Y=  0.22975509E-11 Z= -0.63395774E-06   Total=     0.00631346
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13653100E+01         XY=  0.59653514E-01         XZ=  0.61171668E-01
                YY=  0.12460075E+01         YZ= -0.59900176E-05         ZZ=  0.12459937E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1242286E-02 Y= -0.8191381E-09 Z=  0.5947355E-02  Total=      0.0060757
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149528E+02         XY=  0.62114259E-02         XZ=  0.35537255E-01
                YY= -0.10161928E+02         YZ=  0.29736772E-01         ZZ= -0.12203948E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12358394E-02 Y=  0.87011612E-12 Z= -0.56885677E-06   Total=     0.00123584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12693550E+01         XY=  0.11676990E-01         XZ=  0.17740496E-01
                YY=  0.12460055E+01         YZ= -0.53749144E-05         ZZ=  0.12459928E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1152232E-02 Y= -0.8194271E-09 Z=  0.5947270E-02  Total=      0.0060579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150428E+02         XY=  0.57611588E-02         XZ=  0.35398943E-01
                YY= -0.10161928E+02         YZ=  0.29736348E-01         ZZ= -0.12203949E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43541495E-02 Y= -0.22401880E-12 Z= -0.87849889E-06   Total=     0.00435415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11637190E+01         XY= -0.41140750E-01         XZ= -0.32812686E-01
                YY=  0.12460046E+01         YZ= -0.83006178E-05         ZZ=  0.12459867E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6208323E-03 Y= -0.8198605E-09 Z=  0.5947140E-02  Total=      0.0059795
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155742E+02         XY=  0.31041594E-02         XZ=  0.33094074E-01
                YY= -0.10161929E+02         YZ=  0.29735698E-01         ZZ= -0.12203951E+02
  Expectation value of momentum operator [a. u.]
    X= -0.83227293E-02 Y= -0.76663126E-12 Z= -0.11487218E-05   Total=     0.00832273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10887253E+01         XY= -0.78638396E-01         XZ= -0.71207387E-01
                YY=  0.12460060E+01         YZ= -0.10853859E-04         ZZ=  0.12459834E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1520924E-03 Y= -0.8199328E-09 Z=  0.5947013E-02  Total=      0.0059490
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163472E+02         XY= -0.76046410E-03         XZ=  0.29487697E-01
                YY= -0.10161928E+02         YZ=  0.29735062E-01         ZZ= -0.12203951E+02
  Expectation value of momentum operator [a. u.]
    X= -0.91395133E-02 Y= -0.83065994E-12 Z= -0.10136539E-05   Total=     0.00913951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10732916E+01         XY= -0.86355886E-01         XZ= -0.82665623E-01
                YY=  0.12460077E+01         YZ= -0.95776535E-05         ZZ=  0.12459873E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8728212E-03 Y= -0.8187047E-09 Z=  0.5946932E-02  Total=      0.0060106
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170680E+02         XY= -0.43641080E-02         XZ=  0.25949022E-01
                YY= -0.10161928E+02         YZ=  0.29734659E-01         ZZ= -0.12203952E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64675236E-02 Y= -0.63344756E-12 Z= -0.66452526E-06   Total=     0.00646752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11237840E+01         XY= -0.61109242E-01         XZ= -0.62601376E-01
                YY=  0.12460072E+01         YZ= -0.62788644E-05         ZZ=  0.12459927E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1265340E-02 Y= -0.8171154E-09 Z=  0.5946877E-02  Total=      0.0060800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174605E+02         XY= -0.63267023E-02         XZ=  0.23831412E-01
                YY= -0.10161928E+02         YZ=  0.29734383E-01         ZZ= -0.12203952E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13013925E-02 Y= -0.35593925E-12 Z= -0.59278265E-06   Total=     0.00130139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12214077E+01         XY= -0.12296377E-01         XZ= -0.18450490E-01
                YY=  0.12460051E+01         YZ= -0.56009928E-05         ZZ=  0.12459919E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1177033E-02 Y= -0.8166097E-09 Z=  0.5946789E-02  Total=      0.0060622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173721E+02         XY= -0.58851652E-02         XZ=  0.23954840E-01
                YY= -0.10161928E+02         YZ=  0.29733943E-01         ZZ= -0.12203954E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44026419E-02 Y= -0.44704128E-13 Z= -0.91234655E-06   Total=     0.00440264
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13291978E+01         XY=  0.41598937E-01         XZ=  0.33085962E-01
                YY=  0.12460042E+01         YZ= -0.86204314E-05         ZZ=  0.12459856E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6379898E-03 Y= -0.8170431E-09 Z=  0.5946654E-02  Total=      0.0059808
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168330E+02         XY= -0.31899511E-02         XZ=  0.26288635E-01
                YY= -0.10161928E+02         YZ=  0.29733267E-01         ZZ= -0.12203956E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84673981E-02 Y=  0.35174204E-12 Z= -0.11956011E-05   Total=     0.00846740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14060122E+01         XY=  0.80005317E-01         XZ=  0.72359173E-01
                YY=  0.12460056E+01         YZ= -0.11296795E-04         ZZ=  0.12459821E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1491001E-03 Y= -0.8178378E-09 Z=  0.5946521E-02  Total=      0.0059484
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160460E+02         XY=  0.74549863E-03         XZ=  0.29956917E-01
                YY= -0.10161928E+02         YZ=  0.29732603E-01         ZZ= -0.12203956E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93256798E-02 Y=  0.85163453E-12 Z= -0.10588040E-05   Total=     0.00932568
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14222327E+01         XY=  0.88114904E-01         XZ=  0.84260340E-01
                YY=  0.12460074E+01         YZ= -0.10004246E-04         ZZ=  0.12459861E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8851456E-03 Y= -0.8166819E-09 Z=  0.5946436E-02  Total=      0.0060120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153101E+02         XY=  0.44257260E-02         XZ=  0.33566971E-01
                YY= -0.10161927E+02         YZ=  0.29732180E-01         ZZ= -0.12203957E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66243781E-02 Y=  0.13182961E-11 Z= -0.69561331E-06   Total=     0.00662438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13711846E+01         XY=  0.62591302E-01         XZ=  0.64029463E-01
                YY=  0.12460069E+01         YZ= -0.65725869E-05         ZZ=  0.12459917E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1288295E-02 Y= -0.8154538E-09 Z=  0.5946379E-02  Total=      0.0060843
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149069E+02         XY=  0.64414726E-02         XZ=  0.35737717E-01
                YY= -0.10161927E+02         YZ=  0.29731892E-01         ZZ= -0.12203957E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13689409E-02 Y=  0.14510527E-11 Z= -0.61710602E-06   Total=     0.00136894
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12718691E+01         XY=  0.12934617E-01         XZ=  0.19156008E-01
                YY=  0.12460047E+01         YZ= -0.58307993E-05         ZZ=  0.12459910E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1201853E-02 Y= -0.8158873E-09 Z=  0.5946288E-02  Total=      0.0060665
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149933E+02         XY=  0.60092654E-02         XZ=  0.35628018E-01
                YY= -0.10161928E+02         YZ=  0.29731437E-01         ZZ= -0.12203959E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44506172E-02 Y=  0.92384272E-12 Z= -0.94706579E-06   Total=     0.00445062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11618948E+01         XY= -0.42052238E-01         XZ= -0.33387584E-01
                YY=  0.12460037E+01         YZ= -0.89484721E-05         ZZ=  0.12459844E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6551593E-03 Y= -0.8168987E-09 Z=  0.5946147E-02  Total=      0.0059821
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155400E+02         XY=  0.32757947E-02         XZ=  0.33262638E-01
                YY= -0.10161928E+02         YZ=  0.29730734E-01         ZZ= -0.12203961E+02
  Expectation value of momentum operator [a. u.]
    X= -0.86131497E-02 Y= -0.39010895E-12 Z= -0.12441869E-05   Total=     0.00861315
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10832360E+01         XY= -0.81382470E-01         XZ= -0.73563548E-01
                YY=  0.12460052E+01         YZ= -0.11755871E-04         ZZ=  0.12459808E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1462225E-03 Y= -0.8175488E-09 Z=  0.5946009E-02  Total=      0.0059478
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163414E+02         XY= -0.73111470E-03         XZ=  0.29529291E-01
                YY= -0.10161927E+02         YZ=  0.29730041E-01         ZZ= -0.12203961E+02
  Expectation value of momentum operator [a. u.]
    X= -0.95140371E-02 Y= -0.22380060E-11 Z= -0.11061308E-05   Total=     0.00951404
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10662131E+01         XY= -0.89894623E-01         XZ= -0.85912590E-01
                YY=  0.12460070E+01         YZ= -0.10451446E-04         ZZ=  0.12459848E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8977738E-03 Y= -0.8184157E-09 Z=  0.5945920E-02  Total=      0.0060133
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170931E+02         XY= -0.44888712E-02         XZ=  0.25845340E-01
                YY= -0.10161927E+02         YZ=  0.29729598E-01         ZZ= -0.12203962E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67836102E-02 Y= -0.39816263E-11 Z= -0.72869612E-06   Total=     0.00678361
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11178098E+01         XY= -0.64095828E-01         XZ= -0.65504165E-01
                YY=  0.12460066E+01         YZ= -0.68852193E-05         ZZ=  0.12459907E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1311725E-02 Y= -0.8200050E-09 Z=  0.5945860E-02  Total=      0.0060888
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175070E+02         XY= -0.65586265E-02         XZ=  0.23619498E-01
                YY= -0.10161927E+02         YZ=  0.29729297E-01         ZZ= -0.12203963E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14380522E-02 Y= -0.48149781E-11 Z= -0.64305571E-06   Total=     0.00143805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12188240E+01         XY= -0.13587624E-01         XZ= -0.19899555E-01
                YY=  0.12460043E+01         YZ= -0.60760414E-05         ZZ=  0.12459900E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1227229E-02 Y= -0.8205829E-09 Z=  0.5945765E-02  Total=      0.0060711
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174225E+02         XY= -0.61361451E-02         XZ=  0.23713202E-01
                YY= -0.10161928E+02         YZ=  0.29728825E-01         ZZ= -0.12203964E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44985460E-02 Y= -0.41333826E-11 Z= -0.98337471E-06   Total=     0.00449855
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13310089E+01         XY=  0.42505100E-01         XZ=  0.33650677E-01
                YY=  0.12460033E+01         YZ= -0.92915837E-05         ZZ=  0.12459832E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6728299E-03 Y= -0.8203662E-09 Z=  0.5945619E-02  Total=      0.0059836
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168680E+02         XY= -0.33641517E-02         XZ=  0.26107483E-01
                YY= -0.10161928E+02         YZ=  0.29728095E-01         ZZ= -0.12203966E+02
  Expectation value of momentum operator [a. u.]
    X=  0.87605060E-02 Y= -0.18826820E-11 Z= -0.12945153E-05   Total=     0.00876051
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14115499E+01         XY=  0.82774785E-01         XZ=  0.74732008E-01
                YY=  0.12460048E+01         YZ= -0.12231417E-04         ZZ=  0.12459794E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1430201E-03 Y= -0.8204385E-09 Z=  0.5945475E-02  Total=      0.0059472
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160523E+02         XY=  0.71509851E-03         XZ=  0.29903808E-01
                YY= -0.10161927E+02         YZ=  0.29727371E-01         ZZ= -0.12203967E+02
  Expectation value of momentum operator [a. u.]
    X=  0.97051659E-02 Y=  0.13019874E-11 Z= -0.11550179E-05   Total=     0.00970517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14294029E+01         XY=  0.91700529E-01         XZ=  0.87544667E-01
                YY=  0.12460067E+01         YZ= -0.10913331E-04         ZZ=  0.12459835E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9103211E-03 Y= -0.8207997E-09 Z=  0.5945382E-02  Total=      0.0060147
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152851E+02         XY=  0.45516035E-02         XZ=  0.33660919E-01
                YY= -0.10161927E+02         YZ=  0.29726907E-01         ZZ= -0.12203967E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69458600E-02 Y=  0.42781645E-11 Z= -0.76278461E-06   Total=     0.00694586
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13772586E+01         XY=  0.65628866E-01         XZ=  0.66976219E-01
                YY=  0.12460062E+01         YZ= -0.72072379E-05         ZZ=  0.12459896E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1335305E-02 Y= -0.8205107E-09 Z=  0.5945319E-02  Total=      0.0060934
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148601E+02         XY=  0.66765231E-02         XZ=  0.35941687E-01
                YY= -0.10161927E+02         YZ=  0.29726593E-01         ZZ= -0.12203968E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15094177E-02 Y=  0.58580784E-11 Z= -0.66973711E-06   Total=     0.00150942
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12745225E+01         XY=  0.14261930E-01         XZ=  0.20638477E-01
                YY=  0.12460039E+01         YZ= -0.63280533E-05         ZZ=  0.12459889E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1252897E-02 Y= -0.8196438E-09 Z=  0.5945221E-02  Total=      0.0060758
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149424E+02         XY=  0.62644827E-02         XZ=  0.35862776E-01
                YY= -0.10161927E+02         YZ=  0.29726104E-01         ZZ= -0.12203970E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45457014E-02 Y=  0.53620767E-11 Z= -0.10209448E-05   Total=     0.00454570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11600967E+01         XY= -0.42950654E-01         XZ= -0.33942963E-01
                YY=  0.12460028E+01         YZ= -0.96464895E-05         ZZ=  0.12459820E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6908070E-03 Y= -0.8192104E-09 Z=  0.5945069E-02  Total=      0.0059851
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155045E+02         XY=  0.34540330E-02         XZ=  0.33436800E-01
                YY= -0.10161927E+02         YZ=  0.29725345E-01         ZZ= -0.12203971E+02
  Expectation value of momentum operator [a. u.]
    X= -0.89087265E-02 Y=  0.30031980E-11 Z= -0.13470673E-05   Total=     0.00890873
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10776492E+01         XY= -0.84175266E-01         XZ= -0.75955206E-01
                YY=  0.12460043E+01         YZ= -0.12727920E-04         ZZ=  0.12459779E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1396203E-03 Y= -0.8194993E-09 Z=  0.5944918E-02  Total=      0.0059466
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163350E+02         XY= -0.69810334E-03         XZ=  0.29574163E-01
                YY= -0.10161927E+02         YZ=  0.29724590E-01         ZZ= -0.12203972E+02
  Expectation value of momentum operator [a. u.]
    X= -0.98983380E-02 Y= -0.10446230E-12 Z= -0.12066150E-05   Total=     0.00989834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10589498E+01         XY= -0.93525740E-01         XZ= -0.89236922E-01
                YY=  0.12460063E+01         YZ= -0.11400864E-04         ZZ=  0.12459821E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9228494E-03 Y= -0.8200773E-09 Z=  0.5944821E-02  Total=      0.0060160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171183E+02         XY= -0.46142488E-02         XZ=  0.25741240E-01
                YY= -0.10161926E+02         YZ=  0.29724103E-01         ZZ= -0.12203973E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71104368E-02 Y= -0.23616370E-11 Z= -0.79919541E-06   Total=     0.00711044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11116325E+01         XY= -0.67183892E-01         XZ= -0.68497332E-01
                YY=  0.12460058E+01         YZ= -0.75513249E-05         ZZ=  0.12459885E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1359035E-02 Y= -0.8200773E-09 Z=  0.5944756E-02  Total=      0.0060981
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175545E+02         XY= -0.67951792E-02         XZ=  0.23403473E-01
                YY= -0.10161926E+02         YZ=  0.29723776E-01         ZZ= -0.12203974E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15824074E-02 Y= -0.23724928E-11 Z= -0.69797778E-06   Total=     0.00158241
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12160948E+01         XY= -0.14951583E-01         XZ= -0.21418416E-01
                YY=  0.12460034E+01         YZ= -0.65949564E-05         ZZ=  0.12459879E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1278802E-02 Y= -0.8197883E-09 Z=  0.5944654E-02  Total=      0.0060806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174742E+02         XY= -0.63940136E-02         XZ=  0.23465125E-01
                YY= -0.10161927E+02         YZ=  0.29723269E-01         ZZ= -0.12203975E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45926360E-02 Y=  0.39213856E-12 Z= -0.10595960E-05   Total=     0.00459264
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13327855E+01         XY=  0.43394121E-01         XZ=  0.34191777E-01
                YY=  0.12460023E+01         YZ= -0.10011729E-04         ZZ=  0.12459806E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7089849E-03 Y= -0.8207997E-09 Z=  0.5944497E-02  Total=      0.0059866
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169043E+02         XY= -0.35449265E-02         XZ=  0.25919772E-01
                YY= -0.10161927E+02         YZ=  0.29722481E-01         ZZ= -0.12203977E+02
  Expectation value of momentum operator [a. u.]
    X=  0.90582763E-02 Y=  0.52693288E-11 Z= -0.14005181E-05   Total=     0.00905828
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14171757E+01         XY=  0.85588307E-01         XZ=  0.77135394E-01
                YY=  0.12460039E+01         YZ= -0.13232935E-04         ZZ=  0.12459764E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1361711E-03 Y= -0.8213776E-09 Z=  0.5944339E-02  Total=      0.0059459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160593E+02         XY=  0.68085348E-03         XZ=  0.29846229E-01
                YY= -0.10161927E+02         YZ=  0.29721693E-01         ZZ= -0.12203978E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10093927E-01 Y=  0.10596731E-10 Z= -0.12587962E-05   Total=     0.01009393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14367483E+01         XY=  0.95373792E-01         XZ=  0.90901169E-01
                YY=  0.12460059E+01         YZ= -0.11893812E-04         ZZ=  0.12459806E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9355419E-03 Y= -0.8206552E-09 Z=  0.5944237E-02  Total=      0.0060174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152600E+02         XY=  0.46777074E-02         XZ=  0.33753865E-01
                YY= -0.10161926E+02         YZ=  0.29721184E-01         ZZ= -0.12203979E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72776265E-02 Y=  0.14375923E-10 Z= -0.83574211E-06   Total=     0.00727763
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13835269E+01         XY=  0.68763605E-01         XZ=  0.70008577E-01
                YY=  0.12460054E+01         YZ= -0.78964989E-05         ZZ=  0.12459873E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1383128E-02 Y= -0.8196438E-09 Z=  0.5944169E-02  Total=      0.0061030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148124E+02         XY=  0.69156379E-02         XZ=  0.36148153E-01
                YY= -0.10161926E+02         YZ=  0.29720843E-01         ZZ= -0.12203979E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16572243E-02 Y=  0.15136457E-10 Z= -0.72642055E-06   Total=     0.00165722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12773143E+01         XY=  0.15658500E-01         XZ=  0.22186919E-01
                YY=  0.12460029E+01         YZ= -0.68635534E-05         ZZ=  0.12459868E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1305179E-02 Y= -0.8181990E-09 Z=  0.5944064E-02  Total=      0.0060857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148903E+02         XY=  0.65258933E-02         XZ=  0.36102215E-01
                YY= -0.10161927E+02         YZ=  0.29720318E-01         ZZ= -0.12203981E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46392217E-02 Y=  0.12618953E-10 Z= -0.10994954E-05   Total=     0.00463922
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11583280E+01         XY= -0.43834292E-01         XZ= -0.34477281E-01
                YY=  0.12460017E+01         YZ= -0.10388621E-04         ZZ=  0.12459793E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7276149E-03 Y= -0.8167542E-09 Z=  0.5943900E-02  Total=      0.0059883
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154678E+02         XY=  0.36380725E-02         XZ=  0.33615680E-01
                YY= -0.10161927E+02         YZ=  0.29719499E-01         ZZ= -0.12203983E+02
  Expectation value of momentum operator [a. u.]
    X= -0.92090933E-02 Y=  0.79553230E-11 Z= -0.14567368E-05   Total=     0.00920909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10719718E+01         XY= -0.87013321E-01         XZ= -0.78378590E-01
                YY=  0.12460034E+01         YZ= -0.13764102E-04         ZZ=  0.12459748E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1324090E-03 Y= -0.8165375E-09 Z=  0.5943736E-02  Total=      0.0059452
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163280E+02         XY= -0.66204708E-03         XZ=  0.29621641E-01
                YY= -0.10161926E+02         YZ=  0.29718677E-01         ZZ= -0.12203984E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10291928E-01 Y=  0.32363836E-11 Z= -0.13146372E-05   Total=     0.01029193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10515109E+01         XY= -0.97244622E-01         XZ= -0.92633274E-01
                YY=  0.12460055E+01         YZ= -0.12421494E-04         ZZ=  0.12459791E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9481269E-03 Y= -0.8168264E-09 Z=  0.5943629E-02  Total=      0.0060188
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171438E+02         XY= -0.47406366E-02         XZ=  0.25636311E-01
                YY= -0.10161926E+02         YZ=  0.29718143E-01         ZZ= -0.12203985E+02
  Expectation value of momentum operator [a. u.]
    X= -0.74474651E-02 Y=  0.62958059E-12 Z= -0.87565920E-06   Total=     0.00744747
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11052624E+01         XY= -0.70368347E-01         XZ= -0.71574796E-01
                YY=  0.12460050E+01         YZ= -0.82737743E-05         ZZ=  0.12459860E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1407306E-02 Y= -0.8151649E-09 Z=  0.5943558E-02  Total=      0.0061079
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176030E+02         XY= -0.70365316E-02         XZ=  0.23183194E-01
                YY= -0.10161926E+02         YZ=  0.29717787E-01         ZZ= -0.12203986E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17339333E-02 Y=  0.14227404E-11 Z= -0.75724486E-06   Total=     0.00173393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12132300E+01         XY= -0.16383295E-01         XZ= -0.23001091E-01
                YY=  0.12460024E+01         YZ= -0.71549138E-05         ZZ=  0.12459856E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1331748E-02 Y= -0.8139368E-09 Z=  0.5943449E-02  Total=      0.0060908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175273E+02         XY= -0.66587411E-02         XZ=  0.23210711E-01
                YY= -0.10161926E+02         YZ=  0.29717243E-01         ZZ= -0.12203987E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46853799E-02 Y=  0.54207023E-11 Z= -0.11408855E-05   Total=     0.00468538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13345367E+01         XY=  0.44270424E-01         XZ=  0.34714503E-01
                YY=  0.12460012E+01         YZ= -0.10779759E-04         ZZ=  0.12459779E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7464165E-03 Y= -0.8134311E-09 Z=  0.5943279E-02  Total=      0.0059900
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169419E+02         XY= -0.37320845E-02         XZ=  0.25725795E-01
                YY= -0.10161926E+02         YZ=  0.29716394E-01         ZZ= -0.12203989E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93610981E-02 Y=  0.10979094E-10 Z= -0.15138681E-05   Total=     0.00936110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14228969E+01         XY=  0.88449559E-01         XZ=  0.79573452E-01
                YY=  0.12460029E+01         YZ= -0.14303886E-04         ZZ=  0.12459731E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1286150E-03 Y= -0.8120585E-09 Z=  0.5943108E-02  Total=      0.0059445
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160670E+02         XY=  0.64307305E-03         XZ=  0.29784605E-01
                YY= -0.10161926E+02         YZ=  0.29715537E-01         ZZ= -0.12203991E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10492266E-01 Y=  0.15682691E-10 Z= -0.13708528E-05   Total=     0.01049227
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14442746E+01         XY=  0.99137543E-01         XZ=  0.94332704E-01
                YY=  0.12460051E+01         YZ= -0.12952549E-04         ZZ=  0.12459776E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9608853E-03 Y= -0.8107582E-09 Z=  0.5942996E-02  Total=      0.0060202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152349E+02         XY=  0.48044247E-02         XZ=  0.33846304E-01
                YY= -0.10161925E+02         YZ=  0.29714978E-01         ZZ= -0.12203991E+02
  Expectation value of momentum operator [a. u.]
    X=  0.76198848E-02 Y=  0.17387221E-10 Z= -0.91550560E-06   Total=     0.00761988
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13899934E+01         XY=  0.71997477E-01         XZ=  0.73128120E-01
                YY=  0.12460046E+01         YZ= -0.86501266E-05         ZZ=  0.12459848E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1431849E-02 Y= -0.8096746E-09 Z=  0.5942922E-02  Total=      0.0061130
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147639E+02         XY=  0.71592427E-02         XZ=  0.36357631E-01
                YY= -0.10161925E+02         YZ=  0.29714607E-01         ZZ= -0.12203992E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18124579E-02 Y=  0.15170203E-10 Z= -0.78825045E-06   Total=     0.00181246
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12802463E+01         XY=  0.17125245E-01         XZ=  0.23801641E-01
                YY=  0.12460019E+01         YZ= -0.74477582E-05         ZZ=  0.12459844E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1358784E-02 Y= -0.8090244E-09 Z=  0.5942809E-02  Total=      0.0060962
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148369E+02         XY=  0.67939205E-02         XZ=  0.36346819E-01
                YY= -0.10161926E+02         YZ=  0.29714044E-01         ZZ= -0.12203994E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47312190E-02 Y=  0.97653771E-11 Z= -0.11837546E-05   Total=     0.00473122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11565880E+01         XY= -0.44703541E-01         XZ= -0.34991592E-01
                YY=  0.12460006E+01         YZ= -0.11184776E-04         ZZ=  0.12459764E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7656571E-03 Y= -0.8077963E-09 Z=  0.5942633E-02  Total=      0.0059918
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154300E+02         XY=  0.38282834E-02         XZ=  0.33799684E-01
                YY= -0.10161926E+02         YZ=  0.29713162E-01         ZZ= -0.12203996E+02
  Expectation value of momentum operator [a. u.]
    X= -0.95144602E-02 Y=  0.32774860E-11 Z= -0.15741551E-05   Total=     0.00951446
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10661998E+01         XY= -0.89898621E-01         XZ= -0.80836254E-01
                YY=  0.12460023E+01         YZ= -0.14873580E-04         ZZ=  0.12459714E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1245373E-03 Y= -0.8061348E-09 Z=  0.5942454E-02  Total=      0.0059438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163203E+02         XY= -0.62268861E-03         XZ=  0.29671997E-01
                YY= -0.10161925E+02         YZ=  0.29712269E-01         ZZ= -0.12203997E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10695201E-01 Y= -0.17100138E-11 Z= -0.14310518E-05   Total=     0.01069520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10438888E+01         XY= -0.10105501E+00         XZ= -0.96105764E-01
                YY=  0.12460046E+01         YZ= -0.13521492E-04         ZZ=  0.12459759E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9735902E-03 Y= -0.8053401E-09 Z=  0.5942337E-02  Total=      0.0060216
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171694E+02         XY= -0.48679531E-02         XZ=  0.25530638E-01
                YY= -0.10161925E+02         YZ=  0.29711684E-01         ZZ= -0.12203998E+02
  Expectation value of momentum operator [a. u.]
    X= -0.77952552E-02 Y= -0.32486227E-11 Z= -0.95877031E-06   Total=     0.00779526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10986888E+01         XY= -0.73654488E-01         XZ= -0.74742059E-01
                YY=  0.12460041E+01         YZ= -0.90590907E-05         ZZ=  0.12459834E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1456565E-02 Y= -0.8041843E-09 Z=  0.5942260E-02  Total=      0.0061182
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176524E+02         XY= -0.72828289E-02         XZ=  0.22958516E-01
                YY= -0.10161925E+02         YZ=  0.29711296E-01         ZZ= -0.12203999E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18932858E-02 Y= -0.87011384E-12 Z= -0.82137952E-06   Total=     0.00189329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12102171E+01         XY= -0.17888958E-01         XZ= -0.24653897E-01
                YY=  0.12460014E+01         YZ= -0.77609157E-05         ZZ=  0.12459831E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1386143E-02 Y= -0.8025227E-09 Z=  0.5942143E-02  Total=      0.0061017
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175819E+02         XY= -0.69307183E-02         XZ=  0.22949562E-01
                YY= -0.10161925E+02         YZ=  0.29710713E-01         ZZ= -0.12204001E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47761404E-02 Y=  0.42109120E-11 Z= -0.12277596E-05   Total=     0.00477614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13362502E+01         XY=  0.45127986E-01         XZ=  0.35212692E-01
                YY=  0.12460000E+01         YZ= -0.11600608E-04         ZZ=  0.12459749E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7852462E-03 Y= -0.8015114E-09 Z=  0.5941960E-02  Total=      0.0059936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169810E+02         XY= -0.39262328E-02         XZ=  0.25524930E-01
                YY= -0.10161926E+02         YZ=  0.29709798E-01         ZZ= -0.12204003E+02
  Expectation value of momentum operator [a. u.]
    X=  0.96684897E-02 Y=  0.96302687E-11 Z= -0.16352275E-05   Total=     0.00966849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14287042E+01         XY=  0.91353988E-01         XZ=  0.82041381E-01
                YY=  0.12460018E+01         YZ= -0.15450577E-04         ZZ=  0.12459697E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1202036E-03 Y= -0.7998498E-09 Z=  0.5941774E-02  Total=      0.0059430
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160756E+02         XY=  0.60101587E-03         XZ=  0.29718165E-01
                YY= -0.10161925E+02         YZ=  0.29708867E-01         ZZ= -0.12204004E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10899978E-01 Y=  0.12908538E-10 Z= -0.14919538E-05   Total=     0.01089998
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14519779E+01         XY=  0.10298987E+00         XZ=  0.97837000E-01
                YY=  0.12460042E+01         YZ= -0.14096809E-04         ZZ=  0.12459743E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9862011E-03 Y= -0.7985495E-09 Z=  0.5941651E-02  Total=      0.0060229
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152097E+02         XY=  0.49310037E-02         XZ=  0.33937440E-01
                YY= -0.10161924E+02         YZ=  0.29708255E-01         ZZ= -0.12204004E+02
  Expectation value of momentum operator [a. u.]
    X=  0.79727810E-02 Y=  0.12531092E-10 Z= -0.10027529E-05   Total=     0.00797278
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13966608E+01         XY=  0.75331863E-01         XZ=  0.76335861E-01
                YY=  0.12460037E+01         YZ= -0.94745336E-05         ZZ=  0.12459820E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1481344E-02 Y= -0.7982605E-09 Z=  0.5941571E-02  Total=      0.0061235
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147146E+02         XY=  0.74067163E-02         XZ=  0.36569440E-01
                YY= -0.10161924E+02         YZ=  0.29707851E-01         ZZ= -0.12204005E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19756022E-02 Y=  0.85974171E-11 Z= -0.85575440E-06   Total=     0.00197560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12833277E+01         XY=  0.18666736E-01         XZ=  0.25487002E-01
                YY=  0.12460009E+01         YZ= -0.80856318E-05         ZZ=  0.12459818E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1413640E-02 Y= -0.7979716E-09 Z=  0.5941450E-02  Total=      0.0061073
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147822E+02         XY=  0.70681973E-02         XZ=  0.36596159E-01
                YY= -0.10161925E+02         YZ=  0.29707247E-01         ZZ= -0.12204007E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48209660E-02 Y=  0.27576495E-11 Z= -0.12743337E-05   Total=     0.00482097
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11548904E+01         XY= -0.45551527E-01         XZ= -0.35478908E-01
                YY=  0.12459994E+01         YZ= -0.12040682E-04         ZZ=  0.12459733E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8049261E-03 Y= -0.7979716E-09 Z=  0.5941260E-02  Total=      0.0059955
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153909E+02         XY=  0.40246285E-02         XZ=  0.33988722E-01
                YY= -0.10161925E+02         YZ=  0.29706298E-01         ZZ= -0.12204010E+02
  Expectation value of momentum operator [a. u.]
    X= -0.98240098E-02 Y= -0.25287081E-11 Z= -0.17003591E-05   Total=     0.00982401
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10603486E+01         XY= -0.92823440E-01         XZ= -0.83319931E-01
                YY=  0.12460012E+01         YZ= -0.16066083E-04         ZZ=  0.12459678E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1159450E-03 Y= -0.7990552E-09 Z=  0.5941066E-02  Total=      0.0059422
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163119E+02         XY= -0.57972686E-03         XZ=  0.29725510E-01
                YY= -0.10161925E+02         YZ=  0.29705327E-01         ZZ= -0.12204011E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11107419E-01 Y= -0.50764447E-11 Z= -0.15574293E-05   Total=     0.01110742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10360977E+01         XY= -0.10494990E+00         XZ= -0.99646462E-01
                YY=  0.12460037E+01         YZ= -0.14715612E-04         ZZ=  0.12459725E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9991229E-03 Y= -0.8012224E-09 Z=  0.5940937E-02  Total=      0.0060244
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171952E+02         XY= -0.49956165E-02         XZ=  0.25424822E-01
                YY= -0.10161924E+02         YZ=  0.29704685E-01         ZZ= -0.12204012E+02
  Expectation value of momentum operator [a. u.]
    X= -0.81532803E-02 Y= -0.39179633E-11 Z= -0.10504051E-05   Total=     0.00815328
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10919217E+01         XY= -0.77037335E-01         XZ= -0.77992968E-01
                YY=  0.12460032E+01         YZ= -0.99249187E-05         ZZ=  0.12459806E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1506662E-02 Y= -0.8025950E-09 Z=  0.5940853E-02  Total=      0.0061289
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177027E+02         XY= -0.75333121E-02         XZ=  0.22730261E-01
                YY= -0.10161924E+02         YZ=  0.29704264E-01         ZZ= -0.12204013E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20602164E-02 Y=  0.30627204E-12 Z= -0.89222656E-06   Total=     0.00206022
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12070610E+01         XY= -0.19466224E-01         XZ= -0.26373349E-01
                YY=  0.12460003E+01         YZ= -0.84303123E-05         ZZ=  0.12459805E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1441825E-02 Y= -0.8022338E-09 Z=  0.5940728E-02  Total=      0.0061132
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176378E+02         XY= -0.72091289E-02         XZ=  0.22682600E-01
                YY= -0.10161925E+02         YZ=  0.29703638E-01         ZZ= -0.12204015E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48649003E-02 Y=  0.56695758E-11 Z= -0.13218293E-05   Total=     0.00486490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13379259E+01         XY=  0.45966647E-01         XZ=  0.35686976E-01
                YY=  0.12459988E+01         YZ= -0.12489425E-04         ZZ=  0.12459717E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8253201E-03 Y= -0.8009334E-09 Z=  0.5940531E-02  Total=      0.0059976
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170212E+02         XY= -0.41266024E-02         XZ=  0.25318072E-01
                YY= -0.10161925E+02         YZ=  0.29702653E-01         ZZ= -0.12204017E+02
  Expectation value of momentum operator [a. u.]
    X=  0.99802403E-02 Y=  0.98340291E-11 Z= -0.17659114E-05   Total=     0.00998024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14345939E+01         XY=  0.94299604E-01         XZ=  0.84537415E-01
                YY=  0.12460007E+01         YZ= -0.16685358E-04         ZZ=  0.12459660E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1110670E-03 Y= -0.7993442E-09 Z=  0.5940329E-02  Total=      0.0059414
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160850E+02         XY=  0.55533305E-03         XZ=  0.29647680E-01
                YY= -0.10161924E+02         YZ=  0.29701643E-01         ZZ= -0.12204018E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11316752E-01 Y=  0.11076660E-10 Z= -0.16230532E-05   Total=     0.01131675
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14598524E+01         XY=  0.10692781E+00         XZ=  0.10141067E+00
                YY=  0.12460032E+01         YZ= -0.15335534E-04         ZZ=  0.12459707E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1011590E-02 Y= -0.7979716E-09 Z=  0.5940195E-02  Total=      0.0060257
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151846E+02         XY=  0.50579456E-02         XZ=  0.34027861E-01
                YY= -0.10161924E+02         YZ=  0.29700972E-01         ZZ= -0.12204019E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83359720E-02 Y=  0.90099364E-11 Z= -0.10979844E-05   Total=     0.00833597
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14035227E+01         XY=  0.78763521E-01         XZ=  0.79627579E-01
                YY=  0.12460027E+01         YZ= -0.10374371E-04         ZZ=  0.12459791E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1531681E-02 Y= -0.7981161E-09 Z=  0.5940107E-02  Total=      0.0061344
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146645E+02         XY=  0.76584038E-02         XZ=  0.36783962E-01
                YY= -0.10161924E+02         YZ=  0.29700532E-01         ZZ= -0.12204020E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21463095E-02 Y=  0.46882308E-11 Z= -0.92897317E-06   Total=     0.00214631
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12865520E+01         XY=  0.20279685E-01         XZ=  0.27238430E-01
                YY=  0.12459997E+01         YZ= -0.87774819E-05         ZZ=  0.12459791E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1469783E-02 Y= -0.7992719E-09 Z=  0.5939977E-02  Total=      0.0061191
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147263E+02         XY=  0.73489129E-02         XZ=  0.36850405E-01
                YY= -0.10161924E+02         YZ=  0.29699885E-01         ZZ= -0.12204022E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49088340E-02 Y=  0.75554724E-13 Z= -0.13709362E-05   Total=     0.00490883
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11532282E+01         XY= -0.46381759E-01         XZ= -0.35944023E-01
                YY=  0.12459981E+01         YZ= -0.12953466E-04         ZZ=  0.12459701E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8454269E-03 Y= -0.8001388E-09 Z=  0.5939773E-02  Total=      0.0059996
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153506E+02         XY=  0.42271325E-02         XZ=  0.34182750E-01
                YY= -0.10161924E+02         YZ=  0.29698864E-01         ZZ= -0.12204025E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10138174E-01 Y= -0.28635644E-11 Z= -0.18348205E-05   Total=     0.01013817
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10544102E+01         XY= -0.95791861E-01         XZ= -0.85834706E-01
                YY=  0.12460001E+01         YZ= -0.17336562E-04         ZZ=  0.12459640E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1066641E-03 Y= -0.8000666E-09 Z=  0.5939563E-02  Total=      0.0059405
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163028E+02         XY= -0.53332238E-03         XZ=  0.29781915E-01
                YY= -0.10161924E+02         YZ=  0.29697811E-01         ZZ= -0.12204026E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11529091E-01 Y= -0.30277504E-11 Z= -0.16929473E-05   Total=     0.01152909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10281278E+01         XY= -0.10893413E+00         XZ= -0.10326074E+00
                YY=  0.12460027E+01         YZ= -0.15996056E-04         ZZ=  0.12459688E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1024798E-02 Y= -0.7996331E-09 Z=  0.5939422E-02  Total=      0.0060272
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172211E+02         XY= -0.51239938E-02         XZ=  0.25318380E-01
                YY= -0.10161923E+02         YZ=  0.29697109E-01         ZZ= -0.12204027E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85220921E-02 Y= -0.61376561E-12 Z= -0.11492944E-05   Total=     0.00852209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10849507E+01         XY= -0.80522100E-01         XZ= -0.81332847E-01
                YY=  0.12460022E+01         YZ= -0.10859261E-04         ZZ=  0.12459775E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1557711E-02 Y= -0.7991274E-09 Z=  0.5939330E-02  Total=      0.0061402
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177540E+02         XY= -0.77885552E-02         XZ=  0.22497744E-01
                YY= -0.10161923E+02         YZ=  0.29696650E-01         ZZ= -0.12204028E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22352210E-02 Y=  0.30523209E-11 Z= -0.96807786E-06   Total=     0.00223522
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12037522E+01         XY= -0.21119778E-01         XZ= -0.28163928E-01
                YY=  0.12459991E+01         YZ= -0.91469824E-05         ZZ=  0.12459776E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1498942E-02 Y= -0.7991997E-09 Z=  0.5939196E-02  Total=      0.0061254
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176951E+02         XY= -0.74947109E-02         XZ=  0.22408984E-01
                YY= -0.10161924E+02         YZ=  0.29695980E-01         ZZ= -0.12204030E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49513579E-02 Y=  0.61808876E-11 Z= -0.14212486E-05   Total=     0.00495136
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13395579E+01         XY=  0.46783552E-01         XZ=  0.36134822E-01
                YY=  0.12459975E+01         YZ= -0.13428800E-04         ZZ=  0.12459684E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8667996E-03 Y= -0.7997776E-09 Z=  0.5938985E-02  Total=      0.0060019
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170629E+02         XY= -0.43339998E-02         XZ=  0.25104325E-01
                YY= -0.10161924E+02         YZ=  0.29694921E-01         ZZ= -0.12204033E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10296375E-01 Y=  0.73536298E-11 Z= -0.19043555E-05   Total=     0.01029638
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14405664E+01         XY=  0.97286648E-01         XZ=  0.87062044E-01
                YY=  0.12459994E+01         YZ= -0.17993489E-04         ZZ=  0.12459620E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1010584E-03 Y= -0.7993442E-09 Z=  0.5938766E-02  Total=      0.0059396
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160952E+02         XY=  0.50529006E-03         XZ=  0.29572335E-01
                YY= -0.10161923E+02         YZ=  0.29693826E-01         ZZ= -0.12204034E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11743017E-01 Y=  0.61373668E-11 Z= -0.17630980E-05   Total=     0.01174302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14679061E+01         XY=  0.11095543E+00         XZ=  0.10505788E+00
                YY=  0.12460022E+01         YZ= -0.16658810E-04         ZZ=  0.12459669E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1036949E-02 Y= -0.7993442E-09 Z=  0.5938619E-02  Total=      0.0060285
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151594E+02         XY=  0.51847443E-02         XZ=  0.34116985E-01
                YY= -0.10161923E+02         YZ=  0.29693092E-01         ZZ= -0.12204035E+02
  Expectation value of momentum operator [a. u.]
    X=  0.87102713E-02 Y=  0.32082587E-11 Z= -0.12005763E-05   Total=     0.00871027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14105944E+01         XY=  0.82300137E-01         XZ=  0.83010951E-01
                YY=  0.12460017E+01         YZ= -0.11343774E-04         ZZ=  0.12459759E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1582833E-02 Y= -0.8002833E-09 Z=  0.5938523E-02  Total=      0.0061458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146135E+02         XY=  0.79141617E-02         XZ=  0.37000979E-01
                YY= -0.10161923E+02         YZ=  0.29692614E-01         ZZ= -0.12204036E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23256546E-02 Y= -0.42272961E-13 Z= -0.10074995E-05   Total=     0.00232565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12899394E+01         XY=  0.21974252E-01         XZ=  0.29066106E-01
                YY=  0.12459985E+01         YZ= -0.95194903E-05         ZZ=  0.12459761E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1527273E-02 Y= -0.8005722E-09 Z=  0.5938385E-02  Total=      0.0061316
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146690E+02         XY=  0.76363615E-02         XZ=  0.37109782E-01
                YY= -0.10161923E+02         YZ=  0.29691921E-01         ZZ= -0.12204038E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49936856E-02 Y= -0.22056096E-11 Z= -0.14732825E-05   Total=     0.00499369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11516229E+01         XY= -0.47183491E-01         XZ= -0.36375963E-01
                YY=  0.12459968E+01         YZ= -0.13920520E-04         ZZ=  0.12459666E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8873044E-03 Y= -0.8002110E-09 Z=  0.5938165E-02  Total=      0.0060041
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153089E+02         XY=  0.44365203E-02         XZ=  0.34382441E-01
                YY= -0.10161924E+02         YZ=  0.29690824E-01         ZZ= -0.12204041E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10455974E-01 Y= -0.25107313E-11 Z= -0.19774695E-05   Total=     0.01045597
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10484029E+01         XY= -0.98794634E-01         XZ= -0.88370802E-01
                YY=  0.12459988E+01         YZ= -0.18684400E-04         ZZ=  0.12459599E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9648144E-04 Y= -0.7991997E-09 Z=  0.5937937E-02  Total=      0.0059387
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162928E+02         XY= -0.48240909E-03         XZ=  0.29842257E-01
                YY= -0.10161923E+02         YZ=  0.29689684E-01         ZZ= -0.12204042E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11959578E-01 Y= -0.11272329E-11 Z= -0.18378360E-05   Total=     0.01195958
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10199912E+01         XY= -0.11300163E+00         XZ= -0.10694178E+00
                YY=  0.12460016E+01         YZ= -0.17365043E-04         ZZ=  0.12459649E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1050365E-02 Y= -0.7989829E-09 Z=  0.5937784E-02  Total=      0.0060300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172469E+02         XY= -0.52518277E-02         XZ=  0.25212580E-01
                YY= -0.10161922E+02         YZ=  0.29688916E-01         ZZ= -0.12204043E+02
  Expectation value of momentum operator [a. u.]
    X= -0.89014835E-02 Y=  0.10070257E-11 Z= -0.12559320E-05   Total=     0.00890148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10777797E+01         XY= -0.84106830E-01         XZ= -0.84758869E-01
                YY=  0.12460012E+01         YZ= -0.11866829E-04         ZZ=  0.12459742E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1609456E-02 Y= -0.7988385E-09 Z=  0.5937684E-02  Total=      0.0061519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178060E+02         XY= -0.80472825E-02         XZ=  0.22262284E-01
                YY= -0.10161922E+02         YZ=  0.29688417E-01         ZZ= -0.12204044E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24185147E-02 Y=  0.27216291E-11 Z= -0.10495819E-05   Total=     0.00241851
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12002867E+01         XY= -0.22851652E-01         XZ= -0.30026999E-01
                YY=  0.12459979E+01         YZ= -0.99170892E-05         ZZ=  0.12459746E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1557265E-02 Y= -0.7982605E-09 Z=  0.5937540E-02  Total=      0.0061384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177537E+02         XY= -0.77863272E-02         XZ=  0.22129916E-01
                YY= -0.10161923E+02         YZ=  0.29687700E-01         ZZ= -0.12204047E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50349752E-02 Y=  0.32269316E-11 Z= -0.15267548E-05   Total=     0.00503498
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13411361E+01         XY=  0.47573621E-01         XZ=  0.36551329E-01
                YY=  0.12459961E+01         YZ= -0.14425716E-04         ZZ=  0.12459648E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9095070E-03 Y= -0.7975381E-09 Z=  0.5937313E-02  Total=      0.0060066
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171059E+02         XY= -0.45475370E-02         XZ=  0.24884634E-01
                YY= -0.10161923E+02         YZ=  0.29686564E-01         ZZ= -0.12204049E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10616180E-01 Y=  0.24942314E-11 Z= -0.20513470E-05   Total=     0.01061618
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14466080E+01         XY=  0.10030837E+00         XZ=  0.89608038E-01
                YY=  0.12459981E+01         YZ= -0.19382400E-04         ZZ=  0.12459578E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9029522E-04 Y= -0.7968157E-09 Z=  0.5937076E-02  Total=      0.0059378
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161062E+02         XY=  0.45147420E-03         XZ=  0.29492740E-01
                YY= -0.10161922E+02         YZ=  0.29685378E-01         ZZ= -0.12204051E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12178025E-01 Y=  0.12194020E-11 Z= -0.19127946E-05   Total=     0.01217802
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14761250E+01         XY=  0.11506566E+00         XZ=  0.10877043E+00
                YY=  0.12460010E+01         YZ= -0.18073280E-04         ZZ=  0.12459628E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1062338E-02 Y= -0.7971047E-09 Z=  0.5936916E-02  Total=      0.0060312
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151343E+02         XY=  0.53116898E-02         XZ=  0.34205063E-01
                YY= -0.10161922E+02         YZ=  0.29684577E-01         ZZ= -0.12204052E+02
  Expectation value of momentum operator [a. u.]
    X=  0.90950016E-02 Y=  0.40554107E-12 Z= -0.13109344E-05   Total=     0.00909500
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14178631E+01         XY=  0.85935311E-01         XZ=  0.86478034E-01
                YY=  0.12460006E+01         YZ= -0.12386532E-04         ZZ=  0.12459725E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1634805E-02 Y= -0.7960933E-09 Z=  0.5936812E-02  Total=      0.0061578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145618E+02         XY=  0.81740230E-02         XZ=  0.37220416E-01
                YY= -0.10161922E+02         YZ=  0.29684058E-01         ZZ= -0.12204053E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25130794E-02 Y=  0.79392445E-12 Z= -0.10913143E-05   Total=     0.00251308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12934794E+01         XY=  0.23745159E-01         XZ=  0.30963158E-01
                YY=  0.12459972E+01         YZ= -0.10311419E-04         ZZ=  0.12459730E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1586076E-02 Y= -0.7949375E-09 Z=  0.5936664E-02  Total=      0.0061449
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146104E+02         XY=  0.79303762E-02         XZ=  0.37373951E-01
                YY= -0.10161922E+02         YZ=  0.29683317E-01         ZZ= -0.12204055E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50759562E-02 Y=  0.24470459E-11 Z= -0.15810378E-05   Total=     0.00507596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11500662E+01         XY= -0.47960835E-01         XZ= -0.36780100E-01
                YY=  0.12459953E+01         YZ= -0.14938622E-04         ZZ=  0.12459629E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9304969E-03 Y= -0.7953709E-09 Z=  0.5936428E-02  Total=      0.0060089
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152660E+02         XY=  0.46524828E-02         XZ=  0.34587270E-01
                YY= -0.10161923E+02         YZ=  0.29682141E-01         ZZ= -0.12204058E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10777736E-01 Y=  0.47054049E-11 Z= -0.21278756E-05   Total=     0.01077774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10423206E+01         XY= -0.10183485E+00         XZ= -0.90931935E-01
                YY=  0.12459974E+01         YZ= -0.20105472E-04         ZZ=  0.12459556E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8547665E-04 Y= -0.7957321E-09 Z=  0.5936182E-02  Total=      0.0059368
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162821E+02         XY= -0.42738511E-03         XZ=  0.29905907E-01
                YY= -0.10161922E+02         YZ=  0.29680907E-01         ZZ= -0.12204060E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12399102E-01 Y=  0.65432108E-11 Z= -0.19916349E-05   Total=     0.01239910
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10116837E+01         XY= -0.11715453E+00         XZ= -0.11069156E+00
                YY=  0.12460004E+01         YZ= -0.18818168E-04         ZZ=  0.12459606E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1075910E-02 Y= -0.7950097E-09 Z=  0.5936014E-02  Total=      0.0060327
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172726E+02         XY= -0.53795540E-02         XZ=  0.25106774E-01
                YY= -0.10161921E+02         YZ=  0.29680070E-01         ZZ= -0.12204061E+02
  Expectation value of momentum operator [a. u.]
    X= -0.92915534E-02 Y=  0.71374111E-11 Z= -0.13696656E-05   Total=     0.00929155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10704067E+01         XY= -0.87792456E-01         XZ= -0.88271239E-01
                YY=  0.12460000E+01         YZ= -0.12941404E-04         ZZ=  0.12459707E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1661982E-02 Y= -0.7939983E-09 Z=  0.5935906E-02  Total=      0.0061642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178587E+02         XY= -0.83099114E-02         XZ=  0.22023289E-01
                YY= -0.10161921E+02         YZ=  0.29679529E-01         ZZ= -0.12204062E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26100303E-02 Y=  0.63462042E-11 Z= -0.11357197E-05   Total=     0.00261003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11966656E+01         XY= -0.24661212E-01         XZ= -0.31960843E-01
                YY=  0.12459965E+01         YZ= -0.10730943E-04         ZZ=  0.12459713E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1616862E-02 Y= -0.7946485E-09 Z=  0.5935753E-02  Total=      0.0061520
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178135E+02         XY= -0.80843105E-02         XZ=  0.21844933E-01
                YY= -0.10161922E+02         YZ=  0.29678763E-01         ZZ= -0.12204064E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51160267E-02 Y=  0.48334382E-11 Z= -0.16370094E-05   Total=     0.00511603
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13426657E+01         XY=  0.48339447E-01         XZ=  0.36940202E-01
                YY=  0.12459945E+01         YZ= -0.15467457E-04         ZZ=  0.12459609E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9534775E-03 Y= -0.7953709E-09 Z=  0.5935509E-02  Total=      0.0060116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171501E+02         XY= -0.47673893E-02         XZ=  0.24658735E-01
                YY= -0.10161922E+02         YZ=  0.29677546E-01         ZZ= -0.12204067E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10940150E-01 Y=  0.37540049E-11 Z= -0.22054692E-05   Total=     0.01094015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14527282E+01         XY=  0.10336944E+00         XZ=  0.92180945E-01
                YY=  0.12459967E+01         YZ= -0.20838632E-04         ZZ=  0.12459533E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7878756E-04 Y= -0.7954431E-09 Z=  0.5935253E-02  Total=      0.0059358
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161179E+02         XY=  0.39393595E-03         XZ=  0.29408885E-01
                YY= -0.10161921E+02         YZ=  0.29676264E-01         ZZ= -0.12204069E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12622455E-01 Y=  0.41441518E-11 Z= -0.20708569E-05   Total=     0.01262245
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14845217E+01         XY=  0.11926491E+00         XZ=  0.11255526E+00
                YY=  0.12459998E+01         YZ= -0.19566727E-04         ZZ=  0.12459584E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1087821E-02 Y= -0.7952987E-09 Z=  0.5935078E-02  Total=      0.0060339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151090E+02         XY=  0.54391045E-02         XZ=  0.34292374E-01
                YY= -0.10161921E+02         YZ=  0.29675390E-01         ZZ= -0.12204070E+02
  Expectation value of momentum operator [a. u.]
    X=  0.94909349E-02 Y=  0.63254932E-11 Z= -0.14279442E-05   Total=     0.00949094
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14253434E+01         XY=  0.89676339E-01         XZ=  0.90036301E-01
                YY=  0.12459994E+01         YZ= -0.13492064E-04         ZZ=  0.12459688E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1687719E-02 Y= -0.7946485E-09 Z=  0.5934966E-02  Total=      0.0061703
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145092E+02         XY=  0.84385907E-02         XZ=  0.37442834E-01
                YY= -0.10161921E+02         YZ=  0.29674828E-01         ZZ= -0.12204071E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27093183E-02 Y=  0.96407039E-11 Z= -0.11794334E-05   Total=     0.00270932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12971857E+01         XY=  0.25599348E-01         XZ=  0.32936533E-01
                YY=  0.12459958E+01         YZ= -0.11143949E-04         ZZ=  0.12459696E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1646361E-02 Y= -0.7931314E-09 Z=  0.5934808E-02  Total=      0.0061589
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145504E+02         XY=  0.82318019E-02         XZ=  0.37643716E-01
                YY= -0.10161921E+02         YZ=  0.29674037E-01         ZZ= -0.12204074E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51550865E-02 Y=  0.12685475E-10 Z= -0.16933634E-05   Total=     0.00515509
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11485687E+01         XY= -0.48708508E-01         XZ= -0.37151136E-01
                YY=  0.12459937E+01         YZ= -0.15999859E-04         ZZ=  0.12459589E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9752050E-03 Y= -0.7919756E-09 Z=  0.5934556E-02  Total=      0.0060141
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152215E+02         XY=  0.48760230E-02         XZ=  0.34798205E-01
                YY= -0.10161922E+02         YZ=  0.29672778E-01         ZZ= -0.12204077E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11103186E-01 Y=  0.13953877E-10 Z= -0.22854096E-05   Total=     0.01110319
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10361685E+01         XY= -0.10490990E+00         XZ= -0.93515371E-01
                YY=  0.12459959E+01         YZ= -0.21593874E-04         ZZ=  0.12459509E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7344069E-04 Y= -0.7908920E-09 Z=  0.5934290E-02  Total=      0.0059347
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162703E+02         XY= -0.36720528E-03         XZ=  0.29973885E-01
                YY= -0.10161921E+02         YZ=  0.29671446E-01         ZZ= -0.12204079E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12847725E-01 Y=  0.12597505E-10 Z= -0.21539251E-05   Total=     0.01284773
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10032042E+01         XY= -0.12139341E+00         XZ= -0.11451042E+00
                YY=  0.12459991E+01         YZ= -0.20351538E-04         ZZ=  0.12459561E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1101242E-02 Y= -0.7911087E-09 Z=  0.5934107E-02  Total=      0.0060354
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172982E+02         XY= -0.55062125E-02         XZ=  0.25001908E-01
                YY= -0.10161920E+02         YZ=  0.29670534E-01         ZZ= -0.12204080E+02
  Expectation value of momentum operator [a. u.]
    X= -0.96926852E-02 Y=  0.89192538E-11 Z= -0.14901935E-05   Total=     0.00969269
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10628245E+01         XY= -0.91582602E-01         XZ= -0.91873336E-01
                YY=  0.12459987E+01         YZ= -0.14080213E-04         ZZ=  0.12459669E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1715136E-02 Y= -0.7914699E-09 Z=  0.5933990E-02  Total=      0.0061769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179122E+02         XY= -0.85756814E-02         XZ=  0.21781514E-01
                YY= -0.10161920E+02         YZ=  0.29669948E-01         ZZ= -0.12204081E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28103970E-02 Y=  0.43315369E-11 Z= -0.12262293E-05   Total=     0.00281040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11928772E+01         XY= -0.26554403E-01         XZ= -0.33971356E-01
                YY=  0.12459950E+01         YZ= -0.11586152E-04         ZZ=  0.12459678E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1677636E-02 Y= -0.7913254E-09 Z=  0.5933827E-02  Total=      0.0061664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178745E+02         XY= -0.83881835E-02         XZ=  0.21554506E-01
                YY= -0.10161921E+02         YZ=  0.29669132E-01         ZZ= -0.12204084E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51937523E-02 Y=  0.76056780E-12 Z= -0.17518216E-05   Total=     0.00519375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13441323E+01         XY=  0.49073847E-01         XZ=  0.37293947E-01
                YY=  0.12459929E+01         YZ= -0.16552310E-04         ZZ=  0.12459569E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9986798E-03 Y= -0.7900973E-09 Z=  0.5933566E-02  Total=      0.0060170
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171955E+02         XY= -0.49934011E-02         XZ=  0.24426761E-01
                YY= -0.10161921E+02         YZ=  0.29667830E-01         ZZ= -0.12204087E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11267519E-01 Y= -0.24876542E-12 Z= -0.23666708E-05   Total=     0.01126752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14589125E+01         XY=  0.10646263E+00         XZ=  0.94772794E-01
                YY=  0.12459951E+01         YZ= -0.22361801E-04         ZZ=  0.12459485E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6650394E-04 Y= -0.7880746E-09 Z=  0.5933290E-02  Total=      0.0059337
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161305E+02         XY=  0.33251787E-03         XZ=  0.29320554E-01
                YY= -0.10161920E+02         YZ=  0.29666448E-01         ZZ= -0.12204089E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13075646E-01 Y=  0.16913658E-11 Z= -0.22373101E-05   Total=     0.01307565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14930839E+01         XY=  0.12354695E+00         XZ=  0.11640504E+00
                YY=  0.12459984E+01         YZ= -0.21139503E-04         ZZ=  0.12459538E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1113314E-02 Y= -0.7877856E-09 Z=  0.5933100E-02  Total=      0.0060366
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150838E+02         XY=  0.55665696E-02         XZ=  0.34378393E-01
                YY= -0.10161919E+02         YZ=  0.29665497E-01         ZZ= -0.12204090E+02
  Expectation value of momentum operator [a. u.]
    X=  0.98975957E-02 Y=  0.55424248E-11 Z= -0.15514746E-05   Total=     0.00989760
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14330262E+01         XY=  0.93518726E-01         XZ=  0.93680079E-01
                YY=  0.12459980E+01         YZ= -0.14659265E-04         ZZ=  0.12459649E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1741454E-02 Y= -0.7885080E-09 Z=  0.5932978E-02  Total=      0.0061833
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144557E+02         XY=  0.87072683E-02         XZ=  0.37667490E-01
                YY= -0.10161919E+02         YZ=  0.29664889E-01         ZZ= -0.12204091E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29141241E-02 Y=  0.92385727E-11 Z= -0.12713477E-05   Total=     0.00291412
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13010538E+01         XY=  0.27534482E-01         XZ=  0.34982893E-01
                YY=  0.12459942E+01         YZ= -0.12012418E-04         ZZ=  0.12459660E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1707993E-02 Y= -0.7881468E-09 Z=  0.5932810E-02  Total=      0.0061738
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144890E+02         XY=  0.85399653E-02         XZ=  0.37918226E-01
                YY= -0.10161920E+02         YZ=  0.29664046E-01         ZZ= -0.12204094E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52310881E-02 Y=  0.10603330E-10 Z= -0.18093788E-05   Total=     0.00523109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11471302E+01         XY= -0.49426620E-01         XZ= -0.37489733E-01
                YY=  0.12459920E+01         YZ= -0.17096064E-04         ZZ=  0.12459548E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1021299E-02 Y= -0.7870632E-09 Z=  0.5932541E-02  Total=      0.0060198
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151757E+02         XY=  0.51064944E-02         XZ=  0.35014410E-01
                YY= -0.10161921E+02         YZ=  0.29662701E-01         ZZ= -0.12204097E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11432122E-01 Y=  0.83757852E-11 Z= -0.24490491E-05   Total=     0.01143212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10299504E+01         XY= -0.10801790E+00         XZ= -0.96119156E-01
                YY=  0.12459943E+01         YZ= -0.23140092E-04         ZZ=  0.12459461E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6047942E-04 Y= -0.7871355E-09 Z=  0.5932254E-02  Total=      0.0059326
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162576E+02         XY= -0.30239895E-03         XZ=  0.30045489E-01
                YY= -0.10161920E+02         YZ=  0.29661267E-01         ZZ= -0.12204099E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13305081E-01 Y=  0.28670085E-11 Z= -0.23237640E-05   Total=     0.01330508
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99455945E+00         XY= -0.12571479E+00         XZ= -0.11839423E+00
                YY=  0.12459977E+01         YZ= -0.21956365E-04         ZZ=  0.12459514E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1126429E-02 Y= -0.7865575E-09 Z=  0.5932056E-02  Total=      0.0060381
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173237E+02         XY= -0.56321493E-02         XZ=  0.24897507E-01
                YY= -0.10161919E+02         YZ=  0.29660277E-01         ZZ= -0.12204100E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10104407E-01 Y= -0.40827118E-11 Z= -0.16166832E-05   Total=     0.01010441
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10550421E+01         XY= -0.95472806E-01         XZ= -0.95559551E-01
                YY=  0.12459973E+01         YZ= -0.15275478E-04         ZZ=  0.12459629E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1768944E-02 Y= -0.7858351E-09 Z=  0.5931929E-02  Total=      0.0061901
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179662E+02         XY= -0.88447207E-02         XZ=  0.21536756E-01
                YY= -0.10161919E+02         YZ=  0.29659643E-01         ZZ= -0.12204102E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30191036E-02 Y= -0.98605494E-11 Z= -0.13203107E-05   Total=     0.00301910
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11889309E+01         XY= -0.28526395E-01         XZ= -0.36052358E-01
                YY=  0.12459934E+01         YZ= -0.12475212E-04         ZZ=  0.12459641E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1739571E-02 Y= -0.7863408E-09 Z=  0.5931755E-02  Total=      0.0061816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179367E+02         XY= -0.86978549E-02         XZ=  0.21258707E-01
                YY= -0.10161920E+02         YZ=  0.29658774E-01         ZZ= -0.12204104E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52686377E-02 Y= -0.12231962E-10 Z= -0.18704626E-05   Total=     0.00526864
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13455451E+01         XY=  0.49781412E-01         XZ=  0.37618416E-01
                YY=  0.12459911E+01         YZ= -0.17673414E-04         ZZ=  0.12459526E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1045057E-02 Y= -0.7866298E-09 Z=  0.5931477E-02  Total=      0.0060228
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172422E+02         XY= -0.52252886E-02         XZ=  0.24189022E-01
                YY= -0.10161920E+02         YZ=  0.29657384E-01         ZZ= -0.12204108E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11598694E-01 Y= -0.10369478E-10 Z= -0.25345077E-05   Total=     0.01159869
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14651686E+01         XY=  0.10959178E+00         XZ=  0.97388360E-01
                YY=  0.12459934E+01         YZ= -0.23947716E-04         ZZ=  0.12459435E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5353015E-04 Y= -0.7873522E-09 Z=  0.5931180E-02  Total=      0.0059314
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161437E+02         XY=  0.26764892E-03         XZ=  0.29228233E-01
                YY= -0.10161919E+02         YZ=  0.29655897E-01         ZZ= -0.12204110E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13537888E-01 Y= -0.52804417E-11 Z= -0.24122020E-05   Total=     0.01353789
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15018170E+01         XY=  0.12791451E+00         XZ=  0.12032297E+00
                YY=  0.12459969E+01         YZ= -0.22792051E-04         ZZ=  0.12459488E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1138921E-02 Y= -0.7878579E-09 Z=  0.5930973E-02  Total=      0.0060393
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150585E+02         XY=  0.56946022E-02         XZ=  0.34463706E-01
                YY= -0.10161918E+02         YZ=  0.29654865E-01         ZZ= -0.12204111E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10315132E-01 Y=  0.58561730E-12 Z= -0.16820970E-05   Total=     0.01031513
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14409145E+01         XY=  0.97463875E-01         XZ=  0.97410776E-01
                YY=  0.12459966E+01         YZ= -0.15893510E-04         ZZ=  0.12459608E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1796121E-02 Y= -0.7884358E-09 Z=  0.5930842E-02  Total=      0.0061968
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144013E+02         XY=  0.89806010E-02         XZ=  0.37894988E-01
                YY= -0.10161918E+02         YZ=  0.29654208E-01         ZZ= -0.12204112E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31274895E-02 Y=  0.43970762E-11 Z= -0.13680706E-05   Total=     0.00312749
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13050836E+01         XY=  0.29550494E-01         XZ=  0.37101852E-01
                YY=  0.12459925E+01         YZ= -0.12926358E-04         ZZ=  0.12459622E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1771076E-02 Y= -0.7887970E-09 Z=  0.5930663E-02  Total=      0.0061895
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144262E+02         XY=  0.88553806E-02         XZ=  0.38198035E-01
                YY= -0.10161919E+02         YZ=  0.29653312E-01         ZZ= -0.12204115E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53041343E-02 Y=  0.42052730E-11 Z= -0.19305052E-05   Total=     0.00530413
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11457474E+01         XY= -0.50116806E-01         XZ= -0.37797982E-01
                YY=  0.12459901E+01         YZ= -0.18240597E-04         ZZ=  0.12459504E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1068864E-02 Y= -0.7892304E-09 Z=  0.5930376E-02  Total=      0.0060259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151284E+02         XY=  0.53443199E-02         XZ=  0.35236329E-01
                YY= -0.10161919E+02         YZ=  0.29651877E-01         ZZ= -0.12204119E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11764893E-01 Y= -0.15544948E-12 Z= -0.26206232E-05   Total=     0.01176489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10236596E+01         XY= -0.11116213E+00         XZ= -0.98746980E-01
                YY=  0.12459925E+01         YZ= -0.24761304E-04         ZZ=  0.12459409E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4653909E-04 Y= -0.7900973E-09 Z=  0.5930067E-02  Total=      0.0059302
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162439E+02         XY= -0.23269728E-03         XZ=  0.30120992E-01
                YY= -0.10161919E+02         YZ=  0.29650334E-01         ZZ= -0.12204121E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13771693E-01 Y= -0.69501614E-11 Z= -0.25032382E-05   Total=     0.01377169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98573966E+00         XY= -0.13012364E+00         XZ= -0.12234818E+00
                YY=  0.12459962E+01         YZ= -0.23652234E-04         ZZ=  0.12459463E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1151462E-02 Y= -0.7903141E-09 Z=  0.5929852E-02  Total=      0.0060406
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173490E+02         XY= -0.57573142E-02         XZ=  0.24793612E-01
                YY= -0.10161918E+02         YZ=  0.29649260E-01         ZZ= -0.12204122E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10527403E-01 Y= -0.13279583E-10 Z= -0.17511343E-05   Total=     0.01052740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10470465E+01         XY= -0.99469548E-01         XZ= -0.99336439E-01
                YY=  0.12459958E+01         YZ= -0.16545935E-04         ZZ=  0.12459586E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1823451E-02 Y= -0.7916144E-09 Z=  0.5929716E-02  Total=      0.0062037
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180211E+02         XY= -0.91172574E-02         XZ=  0.21288776E-01
                YY= -0.10161917E+02         YZ=  0.29648577E-01         ZZ= -0.12204124E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32369509E-02 Y= -0.16356540E-10 Z= -0.14195820E-05   Total=     0.00323695
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11848119E+01         XY= -0.30584754E-01         XZ= -0.38211386E-01
                YY=  0.12459917E+01         YZ= -0.13413245E-04         ZZ=  0.12459602E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1802774E-02 Y= -0.7934204E-09 Z=  0.5929531E-02  Total=      0.0061975
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180002E+02         XY= -0.90138702E-02         XZ=  0.20956979E-01
                YY= -0.10161918E+02         YZ=  0.29647653E-01         ZZ= -0.12204127E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53398530E-02 Y= -0.14757568E-10 Z= -0.19941951E-05   Total=     0.00533985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13468883E+01         XY=  0.50454299E-01         XZ=  0.37905775E-01
                YY=  0.12459892E+01         YZ= -0.18842539E-04         ZZ=  0.12459481E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1092783E-02 Y= -0.7942151E-09 Z=  0.5929235E-02  Total=      0.0060291
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172902E+02         XY= -0.54639178E-02         XZ=  0.23944637E-01
                YY= -0.10161919E+02         YZ=  0.29646171E-01         ZZ= -0.12204130E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11932935E-01 Y= -0.90858303E-11 Z= -0.27101748E-05   Total=     0.01193294
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14714825E+01         XY=  0.11274989E+00         XZ=  0.10002053E+00
                YY=  0.12459916E+01         YZ= -0.25607519E-04         ZZ=  0.12459382E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3963855E-04 Y= -0.7944318E-09 Z=  0.5928915E-02  Total=      0.0059290
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161579E+02         XY=  0.19819091E-03         XZ=  0.29130759E-01
                YY= -0.10161918E+02         YZ=  0.29644572E-01         ZZ= -0.12204133E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14008661E-01 Y= -0.17391095E-11 Z= -0.25968727E-05   Total=     0.01400866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15107112E+01         XY=  0.13236266E+00         XZ=  0.12430387E+00
                YY=  0.12459954E+01         YZ= -0.24536909E-04         ZZ=  0.12459436E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1164379E-02 Y= -0.7945040E-09 Z=  0.5928691E-02  Total=      0.0060419
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150334E+02         XY=  0.58218916E-02         XZ=  0.34546961E-01
                YY= -0.10161917E+02         YZ=  0.29643454E-01         ZZ= -0.12204134E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10743350E-01 Y=  0.41257584E-11 Z= -0.18212325E-05   Total=     0.01074335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14490044E+01         XY=  0.10150994E+00         XZ=  0.10122618E+00
                YY=  0.12459950E+01         YZ= -0.17208122E-04         ZZ=  0.12459563E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1851449E-02 Y= -0.7946485E-09 Z=  0.5928549E-02  Total=      0.0062109
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143463E+02         XY=  0.92572442E-02         XZ=  0.38123925E-01
                YY= -0.10161917E+02         YZ=  0.29642745E-01         ZZ= -0.12204135E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33495918E-02 Y=  0.59765344E-11 Z= -0.14709265E-05   Total=     0.00334959
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13092782E+01         XY=  0.31649055E-01         XZ=  0.39294760E-01
                YY=  0.12459908E+01         YZ= -0.13898195E-04         ZZ=  0.12459582E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1835364E-02 Y= -0.7946485E-09 Z=  0.5928359E-02  Total=      0.0062060
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143623E+02         XY=  0.91768177E-02         XZ=  0.38481847E-01
                YY= -0.10161918E+02         YZ=  0.29641793E-01         ZZ= -0.12204138E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53737111E-02 Y=  0.30229324E-11 Z= -0.20579806E-05   Total=     0.00537371
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11444300E+01         XY= -0.50774211E-01         XZ= -0.38071130E-01
                YY=  0.12459882E+01         YZ= -0.19445077E-04         ZZ=  0.12459458E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1117702E-02 Y= -0.7949375E-09 Z=  0.5928053E-02  Total=      0.0060325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150799E+02         XY=  0.55885075E-02         XZ=  0.35462907E-01
                YY= -0.10161918E+02         YZ=  0.29640264E-01         ZZ= -0.12204142E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12100764E-01 Y= -0.34349681E-11 Z= -0.28015367E-05   Total=     0.01210076
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10173101E+01         XY= -0.11433565E+00         XZ= -0.10139166E+00
                YY=  0.12459906E+01         YZ= -0.26470719E-04         ZZ=  0.12459355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3175695E-04 Y= -0.7953709E-09 Z=  0.5927722E-02  Total=      0.0059278
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162294E+02         XY= -0.15878661E-03         XZ=  0.30199664E-01
                YY= -0.10161917E+02         YZ=  0.29638606E-01         ZZ= -0.12204145E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14246774E-01 Y= -0.10584381E-10 Z= -0.26941860E-05   Total=     0.01424677
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97675971E+00         XY= -0.13461251E+00         XZ= -0.12636421E+00
                YY=  0.12459945E+01         YZ= -0.25456462E-04         ZZ=  0.12459409E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1176418E-02 Y= -0.7955876E-09 Z=  0.5927489E-02  Total=      0.0060431
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173743E+02         XY= -0.58820926E-02         XZ=  0.24689829E-01
                YY= -0.10161916E+02         YZ=  0.29637442E-01         ZZ= -0.12204146E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10961005E-01 Y= -0.15347710E-10 Z= -0.18958818E-05   Total=     0.01096101
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10388504E+01         XY= -0.10356649E+00         XZ= -0.10319677E+00
                YY=  0.12459942E+01         YZ= -0.17913620E-04         ZZ=  0.12459540E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1878689E-02 Y= -0.7968880E-09 Z=  0.5927341E-02  Total=      0.0062179
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180766E+02         XY= -0.93934466E-02         XZ=  0.21037450E-01
                YY= -0.10161916E+02         YZ=  0.29636705E-01         ZZ= -0.12204147E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34635096E-02 Y= -0.15744017E-10 Z= -0.15267698E-05   Total=     0.00346351
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11805280E+01         XY= -0.32725423E-01         XZ= -0.40443424E-01
                YY=  0.12459899E+01         YZ= -0.14426021E-04         ZZ=  0.12459560E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1867253E-02 Y= -0.7995609E-09 Z=  0.5927145E-02  Total=      0.0062143
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180650E+02         XY= -0.93362659E-02         XZ=  0.20649358E-01
                YY= -0.10161917E+02         YZ=  0.29635723E-01         ZZ= -0.12204151E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54075443E-02 Y= -0.11755372E-10 Z= -0.21260275E-05   Total=     0.00540754
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13481648E+01         XY=  0.51093888E-01         XZ=  0.38158171E-01
                YY=  0.12459872E+01         YZ= -0.20088152E-04         ZZ=  0.12459433E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1141864E-02 Y= -0.8008612E-09 Z=  0.5926829E-02  Total=      0.0060358
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173396E+02         XY= -0.57093213E-02         XZ=  0.23693673E-01
                YY= -0.10161917E+02         YZ=  0.29634145E-01         ZZ= -0.12204154E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12270150E-01 Y= -0.53122947E-11 Z= -0.28968849E-05   Total=     0.01227015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14778524E+01         XY=  0.11593612E+00         XZ=  0.10266878E+00
                YY=  0.12459897E+01         YZ= -0.27371645E-04         ZZ=  0.12459326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2480657E-04 Y= -0.7988385E-09 Z=  0.5926486E-02  Total=      0.0059265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161730E+02         XY=  0.12403094E-03         XZ=  0.29028123E-01
                YY= -0.10161917E+02         YZ=  0.29632428E-01         ZZ= -0.12204157E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14487744E-01 Y=  0.58901289E-12 Z= -0.27945728E-05   Total=     0.01448774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15197623E+01         XY=  0.13688934E+00         XZ=  0.12834542E+00
                YY=  0.12459937E+01         YZ= -0.26404886E-04         ZZ=  0.12459381E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1189643E-02 Y= -0.7968880E-09 Z=  0.5926244E-02  Total=      0.0060445
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150084E+02         XY=  0.59482121E-02         XZ=  0.34628020E-01
                YY= -0.10161915E+02         YZ=  0.29631216E-01         ZZ= -0.12204158E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11182023E-01 Y=  0.32368313E-11 Z= -0.19718590E-05   Total=     0.01118202
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14572918E+01         XY=  0.10565480E+00         XZ=  0.10512340E+00
                YY=  0.12459934E+01         YZ= -0.18631346E-04         ZZ=  0.12459516E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1907376E-02 Y= -0.7960933E-09 Z=  0.5926090E-02  Total=      0.0062255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142907E+02         XY=  0.95368768E-02         XZ=  0.38354032E-01
                YY= -0.10161915E+02         YZ=  0.29630450E-01         ZZ= -0.12204160E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35802908E-02 Y=  0.14113421E-11 Z= -0.15823385E-05   Total=     0.00358029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13136352E+01         XY=  0.33828846E-01         XZ=  0.41559181E-01
                YY=  0.12459889E+01         YZ= -0.14950926E-04         ZZ=  0.12459539E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1900782E-02 Y= -0.7955154E-09 Z=  0.5925888E-02  Total=      0.0062233
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142972E+02         XY=  0.95039082E-02         XZ=  0.38769296E-01
                YY= -0.10161916E+02         YZ=  0.29629439E-01         ZZ= -0.12204163E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54398498E-02 Y= -0.40915242E-11 Z= -0.21936464E-05   Total=     0.00543985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11431774E+01         XY= -0.51399131E-01         XZ= -0.38310665E-01
                YY=  0.12459861E+01         YZ= -0.20726995E-04         ZZ=  0.12459409E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1167738E-02 Y= -0.7961656E-09 Z=  0.5925563E-02  Total=      0.0060395
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150301E+02         XY=  0.58386897E-02         XZ=  0.35693733E-01
                YY= -0.10161917E+02         YZ=  0.29627811E-01         ZZ= -0.12204167E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12439701E-01 Y= -0.10845988E-10 Z= -0.29932666E-05   Total=     0.01243970
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10109026E+01         XY= -0.11753814E+00         XZ= -0.10405386E+00
                YY=  0.12459887E+01         YZ= -0.28282367E-04         ZZ=  0.12459297E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1620182E-04 Y= -0.7978271E-09 Z=  0.5925207E-02  Total=      0.0059252
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162142E+02         XY= -0.81011010E-04         XZ=  0.30281086E-01
                YY= -0.10161916E+02         YZ=  0.29626032E-01         ZZ= -0.12204170E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14730310E-01 Y= -0.15904833E-10 Z= -0.28978943E-05   Total=     0.01473031
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96761985E+00         XY= -0.13918126E+00         XZ= -0.13044273E+00
                YY=  0.12459928E+01         YZ= -0.27381273E-04         ZZ=  0.12459351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1201364E-02 Y= -0.7995609E-09 Z=  0.5924955E-02  Total=      0.0060455
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173996E+02         XY= -0.60068195E-02         XZ=  0.24585735E-01
                YY= -0.10161915E+02         YZ=  0.29624771E-01         ZZ= -0.12204171E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11405295E-01 Y= -0.17118401E-10 Z= -0.20519257E-05   Total=     0.01140529
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10304522E+01         XY= -0.10776442E+00         XZ= -0.10714136E+00
                YY=  0.12459925E+01         YZ= -0.19388037E-04         ZZ=  0.12459491E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1934731E-02 Y= -0.8023060E-09 Z=  0.5924795E-02  Total=      0.0062327
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181330E+02         XY= -0.96736565E-02         XZ=  0.20782331E-01
                YY= -0.10161915E+02         YZ=  0.29623975E-01         ZZ= -0.12204173E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36989858E-02 Y= -0.14065132E-10 Z= -0.16423323E-05   Total=     0.00369899
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11760755E+01         XY= -0.34950351E-01         XZ= -0.42750043E-01
                YY=  0.12459879E+01         YZ= -0.15517915E-04         ZZ=  0.12459516E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1933098E-02 Y= -0.8046177E-09 Z=  0.5924587E-02  Total=      0.0062320
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181312E+02         XY= -0.96654895E-02         XZ=  0.20335335E-01
                YY= -0.10161916E+02         YZ=  0.29622933E-01         ZZ= -0.12204176E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54714287E-02 Y= -0.81825326E-11 Z= -0.22657941E-05   Total=     0.00547143
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13493693E+01         XY=  0.51697509E-01         XZ=  0.38373501E-01
                YY=  0.12459850E+01         YZ= -0.21408726E-04         ZZ=  0.12459383E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1192409E-02 Y= -0.8054124E-09 Z=  0.5924251E-02  Total=      0.0060431
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173905E+02         XY= -0.59620458E-02         XZ=  0.23435542E-01
                YY= -0.10161916E+02         YZ=  0.29621253E-01         ZZ= -0.12204180E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12610088E-01 Y= -0.20576447E-11 Z= -0.30940777E-05   Total=     0.01261009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14842736E+01         XY=  0.11914807E+00         XZ=  0.10533123E+00
                YY=  0.12459876E+01         YZ= -0.29234820E-04         ZZ=  0.12459267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8910322E-05 Y= -0.8041843E-09 Z=  0.5923882E-02  Total=      0.0059239
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161893E+02         XY=  0.44549705E-04         XZ=  0.28919680E-01
                YY= -0.10161915E+02         YZ=  0.29619411E-01         ZZ= -0.12204183E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14975044E-01 Y=  0.17783042E-11 Z= -0.30046656E-05   Total=     0.01497504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15289685E+01         XY=  0.14149366E+00         XZ=  0.13244698E+00
                YY=  0.12459919E+01         YZ= -0.28389967E-04         ZZ=  0.12459321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1214590E-02 Y= -0.8038953E-09 Z=  0.5923620E-02  Total=      0.0060469
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149838E+02         XY=  0.60729473E-02         XZ=  0.34706238E-01
                YY= -0.10161914E+02         YZ=  0.29618099E-01         ZZ= -0.12204185E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11631308E-01 Y=  0.19884202E-11 Z= -0.21333834E-05   Total=     0.01163131
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14657796E+01         XY=  0.10989993E+00         XZ=  0.10910383E+00
                YY=  0.12459916E+01         YZ= -0.20157542E-04         ZZ=  0.12459465E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1963798E-02 Y= -0.8044732E-09 Z=  0.5923455E-02  Total=      0.0062405
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142347E+02         XY=  0.98189892E-02         XZ=  0.38584758E-01
                YY= -0.10161914E+02         YZ=  0.29617273E-01         ZZ= -0.12204186E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38200056E-02 Y= -0.10169054E-11 Z= -0.17016746E-05   Total=     0.00382001
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13181624E+01         XY=  0.36093822E-01         XZ=  0.43898753E-01
                YY=  0.12459869E+01         YZ= -0.16078509E-04         ZZ=  0.12459492E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1967270E-02 Y= -0.8053401E-09 Z=  0.5923240E-02  Total=      0.0062414
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142310E+02         XY=  0.98363467E-02         XZ=  0.39060018E-01
                YY= -0.10161915E+02         YZ=  0.29616199E-01         ZZ= -0.12204190E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55019530E-02 Y= -0.53478113E-11 Z= -0.23367789E-05   Total=     0.00550195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11420009E+01         XY= -0.51985922E-01         XZ= -0.38511270E-01
                YY=  0.12459839E+01         YZ= -0.22079412E-04         ZZ=  0.12459356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1218964E-02 Y= -0.8072184E-09 Z=  0.5922894E-02  Total=      0.0060470
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149793E+02         XY=  0.60948197E-02         XZ=  0.35928687E-01
                YY= -0.10161915E+02         YZ=  0.29614468E-01         ZZ= -0.12204194E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12781085E-01 Y= -0.85742745E-11 Z= -0.31950787E-05   Total=     0.01278109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10044486E+01         XY= -0.12076376E+00         XZ= -0.10672783E+00
                YY=  0.12459865E+01         YZ= -0.30189197E-04         ZZ=  0.12459236E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1661675E-06 Y= -0.8084465E-09 Z=  0.5922512E-02  Total=      0.0059225
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161982E+02         XY=  0.82892405E-06         XZ=  0.30365384E-01
                YY= -0.10161915E+02         YZ=  0.29612560E-01         ZZ= -0.12204197E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15221837E-01 Y= -0.88788417E-11 Z= -0.31136801E-05   Total=     0.01522184
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95832880E+00         XY= -0.14382552E+00         XZ= -0.13457909E+00
                YY=  0.12459909E+01         YZ= -0.29420094E-04         ZZ=  0.12459290E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1226225E-02 Y= -0.8099635E-09 Z=  0.5922240E-02  Total=      0.0060479
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174248E+02         XY= -0.61311280E-02         XZ=  0.24481641E-01
                YY= -0.10161913E+02         YZ=  0.29611197E-01         ZZ= -0.12204198E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11860093E-01 Y= -0.58806478E-11 Z= -0.22185247E-05   Total=     0.01186009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10218552E+01         XY= -0.11206164E+00         XZ= -0.11116792E+00
                YY=  0.12459907E+01         YZ= -0.20962076E-04         ZZ=  0.12459438E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1991494E-02 Y= -0.8111194E-09 Z=  0.5922068E-02  Total=      0.0062480
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181901E+02         XY= -0.99574743E-02         XZ=  0.20523801E-01
                YY= -0.10161913E+02         YZ=  0.29610338E-01         ZZ= -0.12204200E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39435229E-02 Y= -0.75800201E-12 Z= -0.17653106E-05   Total=     0.00394352
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11714516E+01         XY= -0.37260892E-01         XZ= -0.45131821E-01
                YY=  0.12459858E+01         YZ= -0.16679780E-04         ZZ=  0.12459468E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2000241E-02 Y= -0.8114806E-09 Z=  0.5921847E-02  Total=      0.0062505
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181987E+02         XY= -0.10001206E-01         XZ=  0.20015243E-01
                YY= -0.10161914E+02         YZ=  0.29609232E-01         ZZ= -0.12204204E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55311131E-02 Y=  0.43623213E-11 Z= -0.24123492E-05   Total=     0.00553111
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13504941E+01         XY=  0.52261445E-01         XZ=  0.38548699E-01
                YY=  0.12459827E+01         YZ= -0.22793366E-04         ZZ=  0.12459329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1244383E-02 Y= -0.8114084E-09 Z=  0.5921490E-02  Total=      0.0060508
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174428E+02         XY= -0.62219184E-02         XZ=  0.23170433E-01
                YY= -0.10161915E+02         YZ=  0.29607446E-01         ZZ= -0.12204208E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12952260E-01 Y=  0.74362243E-11 Z= -0.33006497E-05   Total=     0.01295226
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14907369E+01         XY=  0.12238113E+00         XZ=  0.10800350E+00
                YY=  0.12459854E+01         YZ= -0.31186564E-04         ZZ=  0.12459204E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8052113E-05 Y= -0.8112639E-09 Z=  0.5921095E-02  Total=      0.0059211
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162066E+02         XY= -0.40262478E-04         XZ=  0.28805432E-01
                YY= -0.10161914E+02         YZ=  0.29605472E-01         ZZ= -0.12204211E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15470154E-01 Y=  0.74505985E-11 Z= -0.32262551E-05   Total=     0.01547015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15383220E+01         XY=  0.14617177E+00         XZ=  0.13660438E+00
                YY=  0.12459899E+01         YZ= -0.30483637E-04         ZZ=  0.12459258E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1239190E-02 Y= -0.8118418E-09 Z=  0.5920811E-02  Total=      0.0060491
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149596E+02         XY=  0.61959505E-02         XZ=  0.34781456E-01
                YY= -0.10161912E+02         YZ=  0.29604055E-01         ZZ= -0.12204213E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12091020E-01 Y=  0.48432649E-11 Z= -0.23050232E-05   Total=     0.01209102
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14744643E+01         XY=  0.11424358E+00         XZ=  0.11316485E+00
                YY=  0.12459897E+01         YZ= -0.21779279E-04         ZZ=  0.12459411E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2020678E-02 Y= -0.8116251E-09 Z=  0.5920633E-02  Total=      0.0062560
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141781E+02         XY=  0.10103388E-01         XZ=  0.38815854E-01
                YY= -0.10161912E+02         YZ=  0.29603164E-01         ZZ= -0.12204214E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40688201E-02 Y=  0.12128025E-11 Z= -0.18280437E-05   Total=     0.00406882
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13228614E+01         XY=  0.38444779E-01         XZ=  0.46313116E-01
                YY=  0.12459847E+01         YZ= -0.17272507E-04         ZZ=  0.12459443E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2034799E-02 Y= -0.8109749E-09 Z=  0.5920406E-02  Total=      0.0062603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141639E+02         XY=  0.10173992E-01         XZ=  0.39353766E-01
                YY= -0.10161913E+02         YZ=  0.29602026E-01         ZZ= -0.12204218E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55597167E-02 Y= -0.15170729E-11 Z= -0.24862994E-05   Total=     0.00555972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11409062E+01         XY= -0.52531709E-01         XZ= -0.38671169E-01
                YY=  0.12459815E+01         YZ= -0.23492145E-04         ZZ=  0.12459301E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1271376E-02 Y= -0.8122752E-09 Z=  0.5920038E-02  Total=      0.0060550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149272E+02         XY=  0.63568798E-02         XZ=  0.36167610E-01
                YY= -0.10161914E+02         YZ=  0.29600186E-01         ZZ= -0.12204223E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13124514E-01 Y= -0.20569673E-11 Z= -0.34058294E-05   Total=     0.01312451
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99795572E+00         XY= -0.12400869E+00         XZ= -0.10941046E+00
                YY=  0.12459842E+01         YZ= -0.32180449E-04         ZZ=  0.12459171E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1737259E-04 Y= -0.8140813E-09 Z=  0.5919629E-02  Total=      0.0059197
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161813E+02         XY=  0.86861058E-04         XZ=  0.30452526E-01
                YY= -0.10161913E+02         YZ=  0.29598144E-01         ZZ= -0.12204226E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15720988E-01 Y= -0.36412568E-12 Z= -0.33404506E-05   Total=     0.01572099
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94889350E+00         XY= -0.14854181E+00         XZ= -0.13876994E+00
                YY=  0.12459889E+01         YZ= -0.31562695E-04         ZZ=  0.12459225E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1250954E-02 Y= -0.8142980E-09 Z=  0.5919335E-02  Total=      0.0060501
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174499E+02         XY= -0.62547709E-02         XZ=  0.24377640E-01
                YY= -0.10161912E+02         YZ=  0.29596672E-01         ZZ= -0.12204227E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12325166E-01 Y=  0.23814868E-11 Z= -0.23945715E-05   Total=     0.01232517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10130638E+01         XY= -0.11645594E+00         XZ= -0.11527377E+00
                YY=  0.12459887E+01         YZ= -0.22625409E-04         ZZ=  0.12459382E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2048917E-02 Y= -0.8145870E-09 Z=  0.5919150E-02  Total=      0.0062637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182479E+02         XY= -0.10244588E-01         XZ=  0.20262048E-01
                YY= -0.10161911E+02         YZ=  0.29595747E-01         ZZ= -0.12204229E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41970392E-02 Y=  0.44100719E-11 Z= -0.18944188E-05   Total=     0.00419704
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11666578E+01         XY= -0.39656273E-01         XZ= -0.47587181E-01
                YY=  0.12459836E+01         YZ= -0.17899634E-04         ZZ=  0.12459417E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2068618E-02 Y= -0.8148037E-09 Z=  0.5918915E-02  Total=      0.0062700
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182675E+02         XY= -0.10343091E-01         XZ=  0.19689320E-01
                YY= -0.10161912E+02         YZ=  0.29594575E-01         ZZ= -0.12204233E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55865806E-02 Y=  0.42780883E-11 Z= -0.25641793E-05   Total=     0.00558658
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13515390E+01         XY=  0.52785537E-01         XZ=  0.38684410E-01
                YY=  0.12459802E+01         YZ= -0.24227955E-04         ZZ=  0.12459272E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1297726E-02 Y= -0.8143702E-09 Z=  0.5918536E-02  Total=      0.0060591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174965E+02         XY= -0.64886333E-02         XZ=  0.22898600E-01
                YY= -0.10161913E+02         YZ=  0.29592679E-01         ZZ= -0.12204238E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13296647E-01 Y=  0.16089311E-11 Z= -0.35149851E-05   Total=     0.01329665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14972417E+01         XY=  0.12563510E+00         XZ=  0.11068587E+00
                YY=  0.12459830E+01         YZ= -0.33211791E-04         ZZ=  0.12459137E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2602159E-04 Y= -0.8144425E-09 Z=  0.5918114E-02  Total=      0.0059182
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162249E+02         XY= -0.13010989E-03         XZ=  0.28685635E-01
                YY= -0.10161912E+02         YZ=  0.29590568E-01         ZZ= -0.12204241E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15973140E-01 Y= -0.27096358E-11 Z= -0.34577662E-05   Total=     0.01597314
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15478243E+01         XY=  0.15092430E+00         XZ=  0.14081814E+00
                YY=  0.12459878E+01         YZ= -0.32671187E-04         ZZ=  0.12459191E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1263509E-02 Y= -0.8148759E-09 Z=  0.5917808E-02  Total=      0.0060512
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149356E+02         XY=  0.63175433E-02         XZ=  0.34853941E-01
                YY= -0.10161911E+02         YZ=  0.29589039E-01         ZZ= -0.12204243E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12561343E-01 Y= -0.69653498E-11 Z= -0.24852648E-05   Total=     0.01256134
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14833492E+01         XY=  0.11868749E+00         XZ=  0.11730758E+00
                YY=  0.12459877E+01         YZ= -0.23482417E-04         ZZ=  0.12459353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2078093E-02 Y= -0.8150204E-09 Z=  0.5917616E-02  Total=      0.0062719
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141211E+02         XY=  0.10390464E-01         XZ=  0.39047622E-01
                YY= -0.10161910E+02         YZ=  0.29588080E-01         ZZ= -0.12204244E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43270021E-02 Y= -0.94778077E-11 Z= -0.19599567E-05   Total=     0.00432700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13277372E+01         XY=  0.40884245E-01         XZ=  0.48803846E-01
                YY=  0.12459824E+01         YZ= -0.18518996E-04         ZZ=  0.12459391E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2103466E-02 Y= -0.8158873E-09 Z=  0.5917375E-02  Total=      0.0062801
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140956E+02         XY=  0.10517326E-01         XZ=  0.39650898E-01
                YY= -0.10161911E+02         YZ=  0.29586875E-01         ZZ= -0.12204248E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56128816E-02 Y= -0.94443948E-11 Z= -0.26408236E-05   Total=     0.00561288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11398982E+01         XY= -0.53034045E-01         XZ= -0.38788865E-01
                YY=  0.12459789E+01         YZ= -0.24952255E-04         ZZ=  0.12459243E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1325087E-02 Y= -0.8153094E-09 Z=  0.5916985E-02  Total=      0.0060635
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148739E+02         XY=  0.66254321E-02         XZ=  0.36410905E-01
                YY= -0.10161912E+02         YZ=  0.29584924E-01         ZZ= -0.12204253E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13469843E-01 Y= -0.73523922E-11 Z= -0.36244639E-05   Total=     0.01346984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99142678E+00         XY= -0.12727157E+00         XZ= -0.11210103E+00
                YY=  0.12459817E+01         YZ= -0.34246291E-04         ZZ=  0.12459103E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3553695E-04 Y= -0.8139368E-09 Z=  0.5916549E-02  Total=      0.0059167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161636E+02         XY=  0.17768280E-03         XZ=  0.30542936E-01
                YY= -0.10161911E+02         YZ=  0.29582742E-01         ZZ= -0.12204257E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16227809E-01 Y= -0.47459296E-11 Z= -0.35776624E-05   Total=     0.01622781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93931308E+00         XY= -0.15333057E+00         XZ= -0.14301584E+00
                YY=  0.12459867E+01         YZ= -0.33804059E-04         ZZ=  0.12459157E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1275436E-02 Y= -0.8131421E-09 Z=  0.5916231E-02  Total=      0.0060522
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174748E+02         XY= -0.63771811E-02         XZ=  0.24274134E-01
                YY= -0.10161910E+02         YZ=  0.29581155E-01         ZZ= -0.12204258E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12800760E-01 Y= -0.34542786E-11 Z= -0.25800030E-05   Total=     0.01280076
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10040735E+01         XY= -0.12094965E+00         XZ= -0.11946083E+00
                YY=  0.12459866E+01         YZ= -0.24377533E-04         ZZ=  0.12459323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2106904E-02 Y= -0.8126365E-09 Z=  0.5916032E-02  Total=      0.0062800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183063E+02         XY= -0.10534522E-01         XZ=  0.19997407E-01
                YY= -0.10161910E+02         YZ=  0.29580160E-01         ZZ= -0.12204260E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44599154E-02 Y= -0.46564444E-11 Z= -0.20299108E-05   Total=     0.00445992
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11616869E+01         XY= -0.42140094E-01         XZ= -0.50118992E-01
                YY=  0.12459812E+01         YZ= -0.19179925E-04         ZZ=  0.12459364E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2138159E-02 Y= -0.8127087E-09 Z=  0.5915784E-02  Total=      0.0062903
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183374E+02         XY= -0.10690796E-01         XZ=  0.19357806E-01
                YY= -0.10161911E+02         YZ=  0.29578919E-01         ZZ= -0.12204264E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56374309E-02 Y= -0.82455712E-11 Z= -0.27217944E-05   Total=     0.00563743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13524966E+01         XY=  0.53266002E-01         XZ=  0.38777624E-01
                YY=  0.12459776E+01         YZ= -0.25717308E-04         ZZ=  0.12459213E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1352391E-02 Y= -0.8138645E-09 Z=  0.5915382E-02  Total=      0.0060680
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175516E+02         XY= -0.67619589E-02         XZ=  0.22620188E-01
                YY= -0.10161911E+02         YZ=  0.29576910E-01         ZZ= -0.12204269E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13642950E-01 Y= -0.12817115E-10 Z= -0.37379500E-05   Total=     0.01364295
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15037827E+01         XY=  0.12890720E+00         XZ=  0.11337607E+00
                YY=  0.12459804E+01         YZ= -0.35318626E-04         ZZ=  0.12459068E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4496612E-04 Y= -0.8155983E-09 Z=  0.5914932E-02  Total=      0.0059151
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162443E+02         XY= -0.22483255E-03         XZ=  0.28560375E-01
                YY= -0.10161910E+02         YZ=  0.29574656E-01         ZZ= -0.12204273E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16483893E-01 Y= -0.16307166E-10 Z= -0.37004481E-05   Total=     0.01648389
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15574731E+01         XY=  0.15575022E+00         XZ=  0.14508740E+00
                YY=  0.12459855E+01         YZ= -0.34964313E-04         ZZ=  0.12459121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1287577E-02 Y= -0.8169709E-09 Z=  0.5914602E-02  Total=      0.0060531
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149120E+02         XY=  0.64378827E-02         XZ=  0.34923775E-01
                YY= -0.10161909E+02         YZ=  0.29573009E-01         ZZ= -0.12204275E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13042376E-01 Y= -0.16987282E-10 Z= -0.26754560E-05   Total=     0.01304238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14924365E+01         XY=  0.12323260E+00         XZ=  0.12153275E+00
                YY=  0.12459855E+01         YZ= -0.25279547E-04         ZZ=  0.12459292E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2136088E-02 Y= -0.8183435E-09 Z=  0.5914396E-02  Total=      0.0062883
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140636E+02         XY=  0.10680436E-01         XZ=  0.39280195E-01
                YY= -0.10161909E+02         YZ=  0.29571978E-01         ZZ= -0.12204277E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45948036E-02 Y= -0.14340502E-10 Z= -0.20983717E-05   Total=     0.00459480
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13327946E+01         XY=  0.43414602E-01         XZ=  0.51372965E-01
                YY=  0.12459799E+01         YZ= -0.19826868E-04         ZZ=  0.12459336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2173336E-02 Y= -0.8205107E-09 Z=  0.5914141E-02  Total=      0.0063008
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140262E+02         XY=  0.10866676E-01         XZ=  0.39951634E-01
                YY= -0.10161910E+02         YZ=  0.29570704E-01         ZZ= -0.12204281E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56611468E-02 Y= -0.93848551E-11 Z= -0.28005979E-05   Total=     0.00566115
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11389826E+01         XY= -0.53490085E-01         XZ= -0.38861779E-01
                YY=  0.12459762E+01         YZ= -0.26461903E-04         ZZ=  0.12459182E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1380183E-02 Y= -0.8228946E-09 Z=  0.5913728E-02  Total=      0.0060727
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148192E+02         XY=  0.69009145E-02         XZ=  0.36658894E-01
                YY= -0.10161910E+02         YZ=  0.29568638E-01         ZZ= -0.12204286E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13816842E-01 Y= -0.42664388E-11 Z= -0.38505637E-05   Total=     0.01381684
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98486612E+00         XY= -0.13055023E+00         XZ= -0.11479731E+00
                YY=  0.12459791E+01         YZ= -0.36382600E-04         ZZ=  0.12459032E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5476118E-04 Y= -0.8239060E-09 Z=  0.5913262E-02  Total=      0.0059135
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161448E+02         XY=  0.27380393E-03         XZ=  0.30637014E-01
                YY= -0.10161910E+02         YZ=  0.29566310E-01         ZZ= -0.12204290E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16742237E-01 Y= -0.12880350E-11 Z= -0.38244614E-05   Total=     0.01674224
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92958874E+00         XY= -0.15819121E+00         XZ= -0.14731575E+00
                YY=  0.12459843E+01         YZ= -0.36135944E-04         ZZ=  0.12459085E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1299569E-02 Y= -0.8253508E-09 Z=  0.5912921E-02  Total=      0.0060540
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174993E+02         XY= -0.64978457E-02         XZ=  0.24171547E-01
                YY= -0.10161908E+02         YZ=  0.29564602E-01         ZZ= -0.12204292E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13287022E-01 Y= -0.18189219E-11 Z= -0.27736438E-05   Total=     0.01328702
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99488139E+00         XY= -0.12554417E+00         XZ= -0.12372976E+00
                YY=  0.12459843E+01         YZ= -0.26207160E-04         ZZ=  0.12459260E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2165368E-02 Y= -0.8254231E-09 Z=  0.5912707E-02  Total=      0.0062967
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183652E+02         XY= -0.10826840E-01         XZ=  0.19730255E-01
                YY= -0.10161908E+02         YZ=  0.29563534E-01         ZZ= -0.12204293E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47324958E-02 Y= -0.56046022E-11 Z= -0.21702710E-05   Total=     0.00473250
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11565325E+01         XY= -0.44715605E-01         XZ= -0.52729661E-01
                YY=  0.12459787E+01         YZ= -0.20506146E-04         ZZ=  0.12459308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2208806E-02 Y= -0.8261455E-09 Z=  0.5912445E-02  Total=      0.0063116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184085E+02         XY= -0.11044032E-01         XZ=  0.19020963E-01
                YY= -0.10161909E+02         YZ=  0.29562224E-01         ZZ= -0.12204298E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56831912E-02 Y= -0.10821306E-10 Z= -0.28834159E-05   Total=     0.00568319
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13533577E+01         XY=  0.53698375E-01         XZ=  0.38824512E-01
                YY=  0.12459748E+01         YZ= -0.27244432E-04         ZZ=  0.12459151E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1408359E-02 Y= -0.8283849E-09 Z=  0.5912020E-02  Total=      0.0060775
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176079E+02         XY= -0.70417978E-02         XZ=  0.22335287E-01
                YY= -0.10161910E+02         YZ=  0.29560099E-01         ZZ= -0.12204303E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13990666E-01 Y= -0.14878227E-10 Z= -0.39677739E-05   Total=     0.01399067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15103501E+01         XY=  0.13219263E+00         XZ=  0.11606952E+00
                YY=  0.12459778E+01         YZ= -0.37490165E-04         ZZ=  0.12458995E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6490567E-04 Y= -0.8291796E-09 Z=  0.5911539E-02  Total=      0.0059119
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162646E+02         XY= -0.32453033E-03         XZ=  0.28429543E-01
                YY= -0.10161909E+02         YZ=  0.29557695E-01         ZZ= -0.12204307E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17001974E-01 Y= -0.15616806E-10 Z= -0.39528068E-05   Total=     0.01700197
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15672603E+01         XY=  0.16064538E+00         XZ=  0.14940768E+00
                YY=  0.12459831E+01         YZ= -0.37348752E-04         ZZ=  0.12459048E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1311341E-02 Y= -0.8295408E-09 Z=  0.5911185E-02  Total=      0.0060549
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148887E+02         XY=  0.65567028E-02         XZ=  0.34990661E-01
                YY= -0.10161907E+02         YZ=  0.29555925E-01         ZZ= -0.12204309E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13533822E-01 Y= -0.12353471E-10 Z= -0.28744400E-05   Total=     0.01353382
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15017203E+01         XY=  0.12787609E+00         XZ=  0.12583679E+00
                YY=  0.12459831E+01         YZ= -0.27159635E-04         ZZ=  0.12459228E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2194588E-02 Y= -0.8293963E-09 Z=  0.5910964E-02  Total=      0.0063052
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140055E+02         XY=  0.10972936E-01         XZ=  0.39513134E-01
                YY= -0.10161907E+02         YZ=  0.29554819E-01         ZZ= -0.12204311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48721124E-02 Y= -0.62697714E-11 Z= -0.22424105E-05   Total=     0.00487211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13380316E+01         XY=  0.46034791E-01         XZ=  0.54018438E-01
                YY=  0.12459774E+01         YZ= -0.21187770E-04         ZZ=  0.12459279E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2244329E-02 Y= -0.8290351E-09 Z=  0.5910695E-02  Total=      0.0063224
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139556E+02         XY=  0.11221643E-01         XZ=  0.40255472E-01
                YY= -0.10161908E+02         YZ=  0.29553473E-01         ZZ= -0.12204315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57044391E-02 Y=  0.57765683E-13 Z= -0.29651069E-05   Total=     0.00570444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11381608E+01         XY= -0.53899138E-01         XZ= -0.38890066E-01
                YY=  0.12459734E+01         YZ= -0.28016209E-04         ZZ=  0.12459119E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1436596E-02 Y= -0.8301910E-09 Z=  0.5910258E-02  Total=      0.0060823
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147632E+02         XY=  0.71829771E-02         XZ=  0.36911101E-01
                YY= -0.10161909E+02         YZ=  0.29551289E-01         ZZ= -0.12204321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14165283E-01 Y=  0.37973580E-11 Z= -0.40842445E-05   Total=     0.01416528
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97827801E+00         XY= -0.13384253E+00         XZ= -0.11749760E+00
                YY=  0.12459764E+01         YZ= -0.38590495E-04         ZZ=  0.12458958E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7499754E-04 Y= -0.8300465E-09 Z=  0.5909762E-02  Total=      0.0059102
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161249E+02         XY=  0.37498569E-03         XZ=  0.30734391E-01
                YY= -0.10161908E+02         YZ=  0.29548809E-01         ZZ= -0.12204325E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17263941E-01 Y=  0.31628493E-11 Z= -0.40817585E-05   Total=     0.01726394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91972673E+00         XY= -0.16312061E+00         XZ= -0.15166642E+00
                YY=  0.12459819E+01         YZ= -0.38567011E-04         ZZ=  0.12459010E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1323370E-02 Y= -0.8303354E-09 Z=  0.5909395E-02  Total=      0.0060558
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175236E+02         XY= -0.66168542E-02         XZ=  0.24069680E-01
                YY= -0.10161906E+02         YZ=  0.29546975E-01         ZZ= -0.12204327E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13783576E-01 Y= -0.17245022E-11 Z= -0.29769898E-05   Total=     0.01378358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98549465E+00         XY= -0.13023592E+00         XZ= -0.12807634E+00
                YY=  0.12459819E+01         YZ= -0.28128500E-04         ZZ=  0.12459195E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2224294E-02 Y= -0.8314913E-09 Z=  0.5909167E-02  Total=      0.0063139
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184246E+02         XY= -0.11121473E-01         XZ=  0.19460592E-01
                YY= -0.10161906E+02         YZ=  0.29545831E-01         ZZ= -0.12204329E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50144034E-02 Y= -0.88260835E-11 Z= -0.23170941E-05   Total=     0.00501440
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11512017E+01         XY= -0.47379245E-01         XZ= -0.55414684E-01
                YY=  0.12459760E+01         YZ= -0.21893449E-04         ZZ=  0.12459249E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2280516E-02 Y= -0.8326471E-09 Z=  0.5908890E-02  Total=      0.0063337
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184807E+02         XY= -0.11402583E-01         XZ=  0.18678982E-01
                YY= -0.10161907E+02         YZ=  0.29544448E-01         ZZ= -0.12204333E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57242062E-02 Y= -0.15057317E-10 Z= -0.30503504E-05   Total=     0.00572421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13541290E+01         XY=  0.54085910E-01         XZ=  0.38829316E-01
                YY=  0.12459719E+01         YZ= -0.28821769E-04         ZZ=  0.12459086E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1465563E-02 Y= -0.8340920E-09 Z=  0.5908441E-02  Total=      0.0060875
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176656E+02         XY= -0.73278152E-02         XZ=  0.22044249E-01
                YY= -0.10161908E+02         YZ=  0.29542204E-01         ZZ= -0.12204339E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14340092E-01 Y= -0.17661140E-10 Z= -0.42054306E-05   Total=     0.01434009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15169497E+01         XY=  0.13549424E+00         XZ=  0.11876980E+00
                YY=  0.12459749E+01         YZ= -0.39735717E-04         ZZ=  0.12458920E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8575624E-04 Y= -0.8338030E-09 Z=  0.5907929E-02  Total=      0.0059086
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162859E+02         XY= -0.42878322E-03         XZ=  0.28293604E-01
                YY= -0.10161907E+02         YZ=  0.29539645E-01         ZZ= -0.12204343E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17527637E-01 Y= -0.15462842E-10 Z= -0.42156597E-05   Total=     0.01752764
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15771906E+01         XY=  0.16561216E+00         XZ=  0.15378169E+00
                YY=  0.12459806E+01         YZ= -0.39832350E-04         ZZ=  0.12458970E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1334897E-02 Y= -0.8318525E-09 Z=  0.5907549E-02  Total=      0.0060565
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148656E+02         XY=  0.66744807E-02         XZ=  0.35055127E-01
                YY= -0.10161905E+02         YZ=  0.29537745E-01         ZZ= -0.12204345E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14035893E-01 Y= -0.94270107E-11 Z= -0.30829959E-05   Total=     0.01403589
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15112047E+01         XY=  0.13261997E+00         XZ=  0.13022158E+00
                YY=  0.12459807E+01         YZ= -0.29130177E-04         ZZ=  0.12459160E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2253695E-02 Y= -0.8307689E-09 Z=  0.5907312E-02  Total=      0.0063226
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139469E+02         XY=  0.11268475E-01         XZ=  0.39746995E-01
                YY= -0.10161905E+02         YZ=  0.29536560E-01         ZZ= -0.12204347E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51590930E-02 Y= -0.22477008E-11 Z= -0.23927901E-05   Total=     0.00515909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13434510E+01         XY=  0.48746364E-01         XZ=  0.56741380E-01
                YY=  0.12459746E+01         YZ= -0.22608616E-04         ZZ=  0.12459219E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2316553E-02 Y= -0.8301910E-09 Z=  0.5907029E-02  Total=      0.0063450
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138838E+02         XY=  0.11582763E-01         XZ=  0.40562968E-01
                YY= -0.10161906E+02         YZ=  0.29535141E-01         ZZ= -0.12204352E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57426601E-02 Y=  0.28566612E-11 Z= -0.31350042E-05   Total=     0.00574266
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11374347E+01         XY= -0.54260274E-01         XZ= -0.38873375E-01
                YY=  0.12459703E+01         YZ= -0.29621481E-04         ZZ=  0.12459053E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1494432E-02 Y= -0.8295408E-09 Z=  0.5906568E-02  Total=      0.0060927
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147058E+02         XY=  0.74721574E-02         XZ=  0.37168060E-01
                YY= -0.10161907E+02         YZ=  0.29532836E-01         ZZ= -0.12204358E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14515172E-01 Y=  0.36031047E-11 Z= -0.43262565E-05   Total=     0.01451517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97166233E+00         XY= -0.13714850E+00         XZ= -0.12020244E+00
                YY=  0.12459734E+01         YZ= -0.40877177E-04         ZZ=  0.12458881E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9634762E-04 Y= -0.8288906E-09 Z=  0.5906040E-02  Total=      0.0059068
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161041E+02         XY=  0.48173608E-03         XZ=  0.30835557E-01
                YY= -0.10161906E+02         YZ=  0.29530197E-01         ZZ= -0.12204362E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17793077E-01 Y= -0.30566593E-12 Z= -0.43506130E-05   Total=     0.01779308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90972408E+00         XY= -0.16812021E+00         XZ= -0.15606961E+00
                YY=  0.12459792E+01         YZ= -0.41107345E-04         ZZ=  0.12458930E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1346755E-02 Y= -0.8291073E-09 Z=  0.5905646E-02  Total=      0.0060573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175474E+02         XY= -0.67337794E-02         XZ=  0.23968935E-01
                YY= -0.10161904E+02         YZ=  0.29528230E-01         ZZ= -0.12204364E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14290763E-01 Y= -0.70243225E-11 Z= -0.31914515E-05   Total=     0.01429076
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97590678E+00         XY= -0.13502814E+00         XZ= -0.13250385E+00
                YY=  0.12459794E+01         YZ= -0.30154912E-04         ZZ=  0.12459125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2283628E-02 Y= -0.8308411E-09 Z=  0.5905401E-02  Total=      0.0063316
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184844E+02         XY= -0.11418141E-01         XZ=  0.19188674E-01
                YY= -0.10161904E+02         YZ=  0.29527004E-01         ZZ= -0.12204366E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53061743E-02 Y= -0.13380689E-10 Z= -0.24719976E-05   Total=     0.00530617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11456842E+01         XY= -0.50136082E-01         XZ= -0.58178948E-01
                YY=  0.12459732E+01         YZ= -0.23357111E-04         ZZ=  0.12459187E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2353277E-02 Y= -0.8332973E-09 Z=  0.5905110E-02  Total=      0.0063567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185539E+02         XY= -0.11766387E-01         XZ=  0.18331907E-01
                YY= -0.10161905E+02         YZ=  0.29525546E-01         ZZ= -0.12204371E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57597855E-02 Y= -0.16298708E-10 Z= -0.32243327E-05   Total=     0.00575979
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13547973E+01         XY=  0.54422085E-01         XZ=  0.38785748E-01
                YY=  0.12459687E+01         YZ= -0.30465672E-04         ZZ=  0.12459018E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1524043E-02 Y= -0.8343087E-09 Z=  0.5904636E-02  Total=      0.0060982
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177245E+02         XY= -0.76202188E-02         XZ=  0.21746855E-01
                YY= -0.10161906E+02         YZ=  0.29523178E-01         ZZ= -0.12204377E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14690480E-01 Y= -0.14183230E-10 Z= -0.44529118E-05   Total=     0.01469048
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15235672E+01         XY=  0.13880492E+00         XZ=  0.12146995E+00
                YY=  0.12459719E+01         YZ= -0.42074045E-04         ZZ=  0.12458840E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1076150E-03 Y= -0.8343087E-09 Z=  0.5904092E-02  Total=      0.0059051
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163083E+02         XY= -0.53807721E-03         XZ=  0.28152059E-01
                YY= -0.10161905E+02         YZ=  0.29520458E-01         ZZ= -0.12204382E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18060205E-01 Y= -0.76379634E-11 Z= -0.44914591E-05   Total=     0.01806021
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15872511E+01         XY=  0.17064420E+00         XZ=  0.15820300E+00
                YY=  0.12459778E+01         YZ= -0.42438209E-04         ZZ=  0.12458889E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1358100E-02 Y= -0.8335863E-09 Z=  0.5903685E-02  Total=      0.0060579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148428E+02         XY=  0.67905002E-02         XZ=  0.35116436E-01
                YY= -0.10161903E+02         YZ=  0.29518421E-01         ZZ= -0.12204384E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14548132E-01 Y=  0.80892591E-12 Z= -0.33039752E-05   Total=     0.01454813
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15208811E+01         XY=  0.13745993E+00         XZ=  0.13468254E+00
                YY=  0.12459780E+01         YZ= -0.31218041E-04         ZZ=  0.12459089E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2313243E-02 Y= -0.8332251E-09 Z=  0.5903431E-02  Total=      0.0063405
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138878E+02         XY=  0.11566215E-01         XZ=  0.39980901E-01
                YY= -0.10161903E+02         YZ=  0.29517152E-01         ZZ= -0.12204386E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54556225E-02 Y=  0.78434208E-11 Z= -0.25523680E-05   Total=     0.00545562
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13490508E+01         XY=  0.51548162E-01         XZ=  0.59540282E-01
                YY=  0.12459717E+01         YZ= -0.24116322E-04         ZZ=  0.12459154E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2389843E-02 Y= -0.8322137E-09 Z=  0.5903132E-02  Total=      0.0063685
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138110E+02         XY=  0.11949215E-01         XZ=  0.40873251E-01
                YY= -0.10161904E+02         YZ=  0.29515656E-01         ZZ= -0.12204391E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57755574E-02 Y=  0.10846796E-10 Z= -0.33127352E-05   Total=     0.00577556
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11368089E+01         XY= -0.54571109E-01         XZ= -0.38809553E-01
                YY=  0.12459671E+01         YZ= -0.31300726E-04         ZZ=  0.12458983E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1553562E-02 Y= -0.8306244E-09 Z=  0.5902645E-02  Total=      0.0061037
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146472E+02         XY=  0.77678061E-02         XZ=  0.37429067E-01
                YY= -0.10161905E+02         YZ=  0.29513225E-01         ZZ= -0.12204397E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14865930E-01 Y=  0.90448409E-11 Z= -0.45784914E-05   Total=     0.01486593
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96502999E+00         XY= -0.14046268E+00         XZ= -0.12290629E+00
                YY=  0.12459703E+01         YZ= -0.43260403E-04         ZZ=  0.12458799E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1187389E-03 Y= -0.8288906E-09 Z=  0.5902085E-02  Total=      0.0059033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160821E+02         XY=  0.59369250E-03         XZ=  0.30940102E-01
                YY= -0.10161904E+02         YZ=  0.29510422E-01         ZZ= -0.12204402E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18328874E-01 Y=  0.38108899E-11 Z= -0.46324346E-05   Total=     0.01832887
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89959534E+00         XY= -0.17318276E+00         XZ= -0.16051752E+00
                YY=  0.12459764E+01         YZ= -0.43770137E-04         ZZ=  0.12458846E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1369729E-02 Y= -0.8279515E-09 Z=  0.5901663E-02  Total=      0.0060585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175709E+02         XY= -0.68486473E-02         XZ=  0.23869266E-01
                YY= -0.10161902E+02         YZ=  0.29508314E-01         ZZ= -0.12204404E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14807805E-01 Y= -0.20019843E-11 Z= -0.34179568E-05   Total=     0.01480781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96613247E+00         XY= -0.13991348E+00         XZ= -0.13700397E+00
                YY=  0.12459766E+01         YZ= -0.32295034E-04         ZZ=  0.12459052E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2343312E-02 Y= -0.8289629E-09 Z=  0.5901401E-02  Total=      0.0063496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185446E+02         XY= -0.11716564E-01         XZ=  0.18914807E-01
                YY= -0.10161901E+02         YZ=  0.29507002E-01         ZZ= -0.12204406E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56072022E-02 Y= -0.53821254E-11 Z= -0.26352741E-05   Total=     0.00560720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11399916E+01         XY= -0.52980382E-01         XZ= -0.61015514E-01
                YY=  0.12459701E+01         YZ= -0.24899782E-04         ZZ=  0.12459121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2426991E-02 Y= -0.8301910E-09 Z=  0.5901094E-02  Total=      0.0063807
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186281E+02         XY= -0.12134959E-01         XZ=  0.17980304E-01
                YY= -0.10161902E+02         YZ=  0.29505467E-01         ZZ= -0.12204411E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57902447E-02 Y= -0.45233960E-11 Z= -0.34049384E-05   Total=     0.00579025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13553687E+01         XY=  0.54709883E-01         XZ=  0.38697979E-01
                YY=  0.12459654E+01         YZ= -0.32172048E-04         ZZ=  0.12458947E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1583691E-02 Y= -0.8306244E-09 Z=  0.5900595E-02  Total=      0.0061094
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177847E+02         XY= -0.79184548E-02         XZ=  0.21443783E-01
                YY= -0.10161903E+02         YZ=  0.29502971E-01         ZZ= -0.12204418E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15041825E-01 Y=  0.38677896E-12 Z= -0.47092430E-05   Total=     0.01504183
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15302026E+01         XY=  0.14212465E+00         XZ=  0.12417080E+00
                YY=  0.12459686E+01         YZ= -0.44495899E-04         ZZ=  0.12458756E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1303843E-03 Y= -0.8301910E-09 Z=  0.5900017E-02  Total=      0.0059015
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163315E+02         XY= -0.65192376E-03         XZ=  0.28005548E-01
                YY= -0.10161903E+02         YZ=  0.29500082E-01         ZZ= -0.12204423E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18599423E-01 Y=  0.72977975E-11 Z= -0.47789461E-05   Total=     0.01859942
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15974371E+01         XY=  0.17573907E+00         XZ=  0.16266943E+00
                YY=  0.12459749E+01         YZ= -0.45154440E-04         ZZ=  0.12458803E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1381019E-02 Y= -0.8301910E-09 Z=  0.5899581E-02  Total=      0.0060591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148204E+02         XY=  0.69050910E-02         XZ=  0.35175065E-01
                YY= -0.10161901E+02         YZ=  0.29497901E-01         ZZ= -0.12204425E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15070154E-01 Y=  0.13264043E-10 Z= -0.35359298E-05   Total=     0.01507015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15307422E+01         XY=  0.14239232E+00         XZ=  0.13921558E+00
                YY=  0.12459752E+01         YZ= -0.33409588E-04         ZZ=  0.12459013E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2373258E-02 Y= -0.8318525E-09 Z=  0.5899309E-02  Total=      0.0063588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138283E+02         XY=  0.11866289E-01         XZ=  0.40215103E-01
                YY= -0.10161900E+02         YZ=  0.29496544E-01         ZZ= -0.12204427E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57613144E-02 Y=  0.15790662E-10 Z= -0.27194340E-05   Total=     0.00576132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13548234E+01         XY=  0.54436532E-01         XZ=  0.62410408E-01
                YY=  0.12459685E+01         YZ= -0.25694799E-04         ZZ=  0.12459087E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2464192E-02 Y= -0.8327916E-09 Z=  0.5898994E-02  Total=      0.0063930
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137372E+02         XY=  0.12320958E-01         XZ=  0.41186341E-01
                YY= -0.10161901E+02         YZ=  0.29494969E-01         ZZ= -0.12204432E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58034364E-02 Y=  0.13936403E-10 Z= -0.34963620E-05   Total=     0.00580344
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11362777E+01         XY= -0.54834527E-01         XZ= -0.38702932E-01
                YY=  0.12459637E+01         YZ= -0.33035721E-04         ZZ=  0.12458910E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1613950E-02 Y= -0.8328639E-09 Z=  0.5898482E-02  Total=      0.0061153
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145873E+02         XY=  0.80697481E-02         XZ=  0.37693946E-01
                YY= -0.10161902E+02         YZ=  0.29492409E-01         ZZ= -0.12204439E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15217772E-01 Y=  0.86801936E-11 Z= -0.48390794E-05   Total=     0.01521777
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95837696E+00         XY= -0.14378711E+00         XZ= -0.12561264E+00
                YY=  0.12459669E+01         YZ= -0.45722605E-04         ZZ=  0.12458714E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1421178E-03 Y= -0.8319247E-09 Z=  0.5897887E-02  Total=      0.0058996
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160593E+02         XY=  0.71058723E-03         XZ=  0.31047705E-01
                YY= -0.10161901E+02         YZ=  0.29489434E-01         ZZ= -0.12204444E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18871509E-01 Y=  0.24100540E-11 Z= -0.49257742E-05   Total=     0.01887151
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88933718E+00         XY= -0.17830991E+00         XZ= -0.16501295E+00
                YY=  0.12459734E+01         YZ= -0.46541805E-04         ZZ=  0.12458759E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1392360E-02 Y= -0.8303354E-09 Z=  0.5897436E-02  Total=      0.0060596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175941E+02         XY= -0.69618042E-02         XZ=  0.23770243E-01
                YY= -0.10161900E+02         YZ=  0.29487179E-01         ZZ= -0.12204446E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15334914E-01 Y= -0.22041628E-11 Z= -0.36555795E-05   Total=     0.01533491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95616771E+00         XY= -0.14489394E+00         XZ= -0.14157932E+00
                YY=  0.12459737E+01         YZ= -0.34540242E-04         ZZ=  0.12458974E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2403436E-02 Y= -0.8306244E-09 Z=  0.5897156E-02  Total=      0.0063681
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186053E+02         XY= -0.12017182E-01         XZ=  0.18638455E-01
                YY= -0.10161899E+02         YZ=  0.29485776E-01         ZZ= -0.12204449E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59177763E-02 Y= -0.34200676E-11 Z= -0.28063617E-05   Total=     0.00591778
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11341185E+01         XY= -0.55914883E-01         XZ= -0.63927146E-01
                YY=  0.12459669E+01         YZ= -0.26516307E-04         ZZ=  0.12459052E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2501771E-02 Y= -0.8307689E-09 Z=  0.5896832E-02  Total=      0.0064056
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187034E+02         XY= -0.12508856E-01         XZ=  0.17623528E-01
                YY= -0.10161900E+02         YZ=  0.29484160E-01         ZZ= -0.12204454E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58152465E-02 Y= -0.11595790E-11 Z= -0.35918366E-05   Total=     0.00581525
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13558367E+01         XY=  0.54946117E-01         XZ=  0.38563209E-01
                YY=  0.12459619E+01         YZ= -0.33937950E-04         ZZ=  0.12458872E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1644640E-02 Y= -0.8306244E-09 Z=  0.5896307E-02  Total=      0.0061214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178462E+02         XY= -0.82232038E-02         XZ=  0.21134288E-01
                YY= -0.10161901E+02         YZ=  0.29481533E-01         ZZ= -0.12204460E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15393850E-01 Y=  0.30454899E-11 Z= -0.49744155E-05   Total=     0.01539385
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15368506E+01         XY=  0.14545080E+00         XZ=  0.12687026E+00
                YY=  0.12459652E+01         YZ= -0.47001392E-04         ZZ=  0.12458669E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1542165E-03 Y= -0.8309856E-09 Z=  0.5895694E-02  Total=      0.0058977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163559E+02         XY= -0.77108451E-03         XZ=  0.27853266E-01
                YY= -0.10161900E+02         YZ=  0.29478470E-01         ZZ= -0.12204466E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19145219E-01 Y=  0.68428946E-11 Z= -0.50786097E-05   Total=     0.01914522
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16077472E+01         XY=  0.18089610E+00         XZ=  0.16718073E+00
                YY=  0.12459718E+01         YZ= -0.47985853E-04         ZZ=  0.12458713E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1403502E-02 Y= -0.8304077E-09 Z=  0.5895228E-02  Total=      0.0060600
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147985E+02         XY=  0.70175097E-02         XZ=  0.35230244E-01
                YY= -0.10161898E+02         YZ=  0.29476138E-01         ZZ= -0.12204469E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15602222E-01 Y=  0.81935413E-11 Z= -0.37798206E-05   Total=     0.01560222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15407929E+01         XY=  0.14741964E+00         XZ=  0.14382334E+00
                YY=  0.12459722E+01         YZ= -0.35714062E-04         ZZ=  0.12458933E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2433623E-02 Y= -0.8289629E-09 Z=  0.5894938E-02  Total=      0.0063775
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137685E+02         XY=  0.12168113E-01         XZ=  0.40448991E-01
                YY= -0.10161898E+02         YZ=  0.29474687E-01         ZZ= -0.12204471E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60768092E-02 Y=  0.63115288E-11 Z= -0.28951440E-05   Total=     0.00607681
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13607811E+01         XY=  0.57417526E-01         XZ=  0.65357720E-01
                YY=  0.12459652E+01         YZ= -0.27355095E-04         ZZ=  0.12459016E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2539541E-02 Y= -0.8282405E-09 Z=  0.5894606E-02  Total=      0.0064184
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136624E+02         XY=  0.12697703E-01         XZ=  0.41501921E-01
                YY= -0.10161899E+02         YZ=  0.29473030E-01         ZZ= -0.12204476E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58253576E-02 Y=  0.19813472E-11 Z= -0.36869621E-05   Total=     0.00582536
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11358588E+01         XY= -0.55041652E-01         XZ= -0.38544819E-01
                YY=  0.12459601E+01         YZ= -0.34836728E-04         ZZ=  0.12458833E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1675618E-02 Y= -0.8283127E-09 Z=  0.5894068E-02  Total=      0.0061276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145262E+02         XY=  0.83780871E-02         XZ=  0.37962765E-01
                YY= -0.10161900E+02         YZ=  0.29470337E-01         ZZ= -0.12204483E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15569651E-01 Y= -0.28716453E-11 Z= -0.51089801E-05   Total=     0.01556965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95172300E+00         XY= -0.14711188E+00         XZ= -0.12831163E+00
                YY=  0.12459634E+01         YZ= -0.48272891E-04         ZZ=  0.12458624E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1665852E-03 Y= -0.8282405E-09 Z=  0.5893437E-02  Total=      0.0058958
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160353E+02         XY=  0.83292381E-03         XZ=  0.31158837E-01
                YY= -0.10161899E+02         YZ=  0.29467184E-01         ZZ= -0.12204489E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19420077E-01 Y= -0.61284149E-11 Z= -0.52315826E-05   Total=     0.01942008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87896666E+00         XY= -0.18349314E+00         XZ= -0.16954709E+00
                YY=  0.12459702E+01         YZ= -0.49431344E-04         ZZ=  0.12458667E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1414487E-02 Y= -0.8275181E-09 Z=  0.5892955E-02  Total=      0.0060603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176167E+02         XY= -0.70724368E-02         XZ=  0.23672659E-01
                YY= -0.10161897E+02         YZ=  0.29464775E-01         ZZ= -0.12204491E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15871562E-01 Y= -0.64780172E-11 Z= -0.39052421E-05   Total=     0.01587156
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94602248E+00         XY= -0.14996453E+00         XZ= -0.14622421E+00
                YY=  0.12459706E+01         YZ= -0.36899245E-04         ZZ=  0.12458892E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2463808E-02 Y= -0.8277348E-09 Z=  0.5892655E-02  Total=      0.0063870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186662E+02         XY= -0.12319041E-01         XZ=  0.18360585E-01
                YY= -0.10161897E+02         YZ=  0.29463275E-01         ZZ= -0.12204494E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62378778E-02 Y= -0.39993565E-11 Z= -0.29859163E-05   Total=     0.00623788
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11280650E+01         XY= -0.58939403E-01         XZ= -0.66912715E-01
                YY=  0.12459635E+01         YZ= -0.28212855E-04         ZZ=  0.12458979E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2577437E-02 Y= -0.8281682E-09 Z=  0.5892316E-02  Total=      0.0064314
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187797E+02         XY= -0.12887187E-01         XZ=  0.17262521E-01
                YY= -0.10161898E+02         YZ=  0.29461577E-01         ZZ= -0.12204499E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58343059E-02 Y= -0.60576870E-13 Z= -0.37851929E-05   Total=     0.00583431
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13561922E+01         XY=  0.55126202E-01         XZ=  0.38377785E-01
                YY=  0.12459582E+01         YZ= -0.35764890E-04         ZZ=  0.12458794E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1706764E-02 Y= -0.8280237E-09 Z=  0.5891764E-02  Total=      0.0061340
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179088E+02         XY= -0.85338206E-02         XZ=  0.20819095E-01
                YY= -0.10161899E+02         YZ=  0.29458815E-01         ZZ= -0.12204506E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15745703E-01 Y=  0.33942453E-11 Z= -0.52481473E-05   Total=     0.01574570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15434951E+01         XY=  0.14877533E+00         XZ=  0.12956084E+00
                YY=  0.12459615E+01         YZ= -0.49587777E-04         ZZ=  0.12458578E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1790543E-03 Y= -0.8271568E-09 Z=  0.5891115E-02  Total=      0.0058938
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163813E+02         XY= -0.89527354E-03         XZ=  0.27695588E-01
                YY= -0.10161898E+02         YZ=  0.29455571E-01         ZZ= -0.12204512E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19696595E-01 Y=  0.48100417E-11 Z= -0.53899488E-05   Total=     0.01969660
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16181625E+01         XY=  0.18610585E+00         XZ=  0.17172740E+00
                YY=  0.12459685E+01         YZ= -0.50927594E-04         ZZ=  0.12458619E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1425532E-02 Y= -0.8262177E-09 Z=  0.5890617E-02  Total=      0.0060607
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147770E+02         XY=  0.71276586E-02         XZ=  0.35281939E-01
                YY= -0.10161896E+02         YZ=  0.29453081E-01         ZZ= -0.12204515E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16143416E-01 Y=  0.37663959E-11 Z= -0.40350348E-05   Total=     0.01614342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15510158E+01         XY=  0.15253317E+00         XZ=  0.14849631E+00
                YY=  0.12459690E+01         YZ= -0.38125522E-04         ZZ=  0.12458850E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2494253E-02 Y= -0.8256398E-09 Z=  0.5890307E-02  Total=      0.0063966
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137084E+02         XY=  0.12471263E-01         XZ=  0.40682153E-01
                YY= -0.10161895E+02         YZ=  0.29451532E-01         ZZ= -0.12204517E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64014197E-02 Y=  0.11462834E-11 Z= -0.30786593E-05   Total=     0.00640142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13669108E+01         XY=  0.60484651E-01         XZ=  0.68374339E-01
                YY=  0.12459617E+01         YZ= -0.29089104E-04         ZZ=  0.12458941E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2615762E-02 Y= -0.8245562E-09 Z=  0.5889959E-02  Total=      0.0064447
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135868E+02         XY=  0.13078806E-01         XZ=  0.41819289E-01
                YY= -0.10161896E+02         YZ=  0.29449791E-01         ZZ= -0.12204522E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58417225E-02 Y= -0.13437347E-11 Z= -0.38834001E-05   Total=     0.00584172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11355448E+01         XY= -0.55196278E-01         XZ= -0.38340602E-01
                YY=  0.12459563E+01         YZ= -0.36692823E-04         ZZ=  0.12458753E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1738415E-02 Y= -0.8234726E-09 Z=  0.5889393E-02  Total=      0.0061406
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144639E+02         XY=  0.86920717E-02         XZ=  0.38234650E-01
                YY= -0.10161897E+02         YZ=  0.29446962E-01         ZZ= -0.12204530E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15921730E-01 Y= -0.20569534E-11 Z= -0.53870026E-05   Total=     0.01592173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94506502E+00         XY= -0.15043854E+00         XZ= -0.13100617E+00
                YY=  0.12459596E+01         YZ= -0.50899814E-04         ZZ=  0.12458532E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1919863E-03 Y= -0.8235448E-09 Z=  0.5888725E-02  Total=      0.0058919
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160105E+02         XY=  0.95992942E-03         XZ=  0.31272554E-01
                YY= -0.10161897E+02         YZ=  0.29443625E-01         ZZ= -0.12204536E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19974609E-01 Y= -0.25319676E-12 Z= -0.55490301E-05   Total=     0.01997461
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86848325E+00         XY= -0.18873270E+00         XZ= -0.17412090E+00
                YY=  0.12459668E+01         YZ= -0.52430736E-04         ZZ=  0.12458570E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1436259E-02 Y= -0.8230391E-09 Z=  0.5888211E-02  Total=      0.0060608
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176391E+02         XY= -0.71812955E-02         XZ=  0.23575581E-01
                YY= -0.10161895E+02         YZ=  0.29441054E-01         ZZ= -0.12204539E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16417737E-01 Y=  0.35120869E-11 Z= -0.41666673E-05   Total=     0.01641774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93569701E+00         XY= -0.15512513E+00         XZ= -0.15093844E+00
                YY=  0.12459673E+01         YZ= -0.39369270E-04         ZZ=  0.12458806E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2524571E-02 Y= -0.8228946E-09 Z=  0.5887891E-02  Total=      0.0064063
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187276E+02         XY= -0.12622858E-01         XZ=  0.18080313E-01
                YY= -0.10161894E+02         YZ=  0.29439454E-01         ZZ= -0.12204541E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65674921E-02 Y=  0.76496276E-11 Z= -0.31740408E-05   Total=     0.00656749
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11218316E+01         XY= -0.62053807E-01         XZ= -0.69971253E-01
                YY=  0.12459599E+01         YZ= -0.29990273E-04         ZZ=  0.12458902E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2654127E-02 Y= -0.8223890E-09 Z=  0.5887534E-02  Total=      0.0064581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188569E+02         XY= -0.13270635E-01         XZ=  0.16896477E-01
                YY= -0.10161895E+02         YZ=  0.29437670E-01         ZZ= -0.12204547E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58474779E-02 Y=  0.10322191E-10 Z= -0.39852591E-05   Total=     0.00584748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13564362E+01         XY=  0.55250659E-01         XZ=  0.38143490E-01
                YY=  0.12459543E+01         YZ= -0.37655153E-04         ZZ=  0.12458712E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1770186E-02 Y= -0.8205107E-09 Z=  0.5886954E-02  Total=      0.0061473
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179728E+02         XY= -0.88509298E-02         XZ=  0.20497514E-01
                YY= -0.10161896E+02         YZ=  0.29434770E-01         ZZ= -0.12204554E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16097573E-01 Y=  0.10367850E-10 Z= -0.55308690E-05   Total=     0.01609757
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15501397E+01         XY=  0.15210002E+00         XZ=  0.13224560E+00
                YY=  0.12459577E+01         YZ= -0.52259050E-04         ZZ=  0.12458483E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2049999E-03 Y= -0.8192104E-09 Z=  0.5886268E-02  Total=      0.0058898
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164078E+02         XY= -0.10250013E-02         XZ=  0.27531983E-01
                YY= -0.10161895E+02         YZ=  0.29431339E-01         ZZ= -0.12204560E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20253971E-01 Y=  0.79007148E-11 Z= -0.57137554E-05   Total=     0.02025397
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16286910E+01         XY=  0.19137229E+00         XZ=  0.17631431E+00
                YY=  0.12459650E+01         YZ= -0.53987096E-04         ZZ=  0.12458520E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1447046E-02 Y= -0.8185602E-09 Z=  0.5885737E-02  Total=      0.0060610
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147561E+02         XY=  0.72352279E-02         XZ=  0.35329850E-01
                YY= -0.10161893E+02         YZ=  0.29428683E-01         ZZ= -0.12204564E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16694426E-01 Y=  0.42831328E-11 Z= -0.43026847E-05   Total=     0.01669443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15614240E+01         XY=  0.15773946E+00         XZ=  0.15324137E+00
                YY=  0.12459656E+01         YZ= -0.40654440E-04         ZZ=  0.12458762E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2555144E-02 Y= -0.8183435E-09 Z=  0.5885407E-02  Total=      0.0064161
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136481E+02         XY=  0.12775719E-01         XZ=  0.40914587E-01
                YY= -0.10161893E+02         YZ=  0.29427030E-01         ZZ= -0.12204566E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67360590E-02 Y=  0.14701168E-11 Z= -0.32710376E-05   Total=     0.00673606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13732298E+01         XY=  0.63646534E-01         XZ=  0.71468690E-01
                YY=  0.12459581E+01         YZ= -0.30906811E-04         ZZ=  0.12458863E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2692921E-02 Y= -0.8184880E-09 Z=  0.5885041E-02  Total=      0.0064719
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135102E+02         XY=  0.13464601E-01         XZ=  0.42138785E-01
                YY= -0.10161894E+02         YZ=  0.29425203E-01         ZZ= -0.12204572E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58515457E-02 Y=  0.10363328E-11 Z= -0.40862924E-05   Total=     0.00585155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11353541E+01         XY= -0.55289094E-01         XZ= -0.38081495E-01
                YY=  0.12459522E+01         YZ= -0.38609857E-04         ZZ=  0.12458670E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1802477E-02 Y= -0.8192104E-09 Z=  0.5884447E-02  Total=      0.0061543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144005E+02         XY=  0.90123821E-02         XZ=  0.38510266E-01
                YY= -0.10161895E+02         YZ=  0.29422234E-01         ZZ= -0.12204579E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16273160E-01 Y=  0.33629084E-11 Z= -0.56732392E-05   Total=     0.01627316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93841907E+00         XY= -0.15375908E+00         XZ= -0.13368878E+00
                YY=  0.12459557E+01         YZ= -0.53604311E-04         ZZ=  0.12458435E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2185099E-03 Y= -0.8202217E-09 Z=  0.5883742E-02  Total=      0.0058878
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159846E+02         XY=  0.10925474E-02         XZ=  0.31389768E-01
                YY= -0.10161894E+02         YZ=  0.29418708E-01         ZZ= -0.12204586E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20534593E-01 Y=  0.73945038E-11 Z= -0.58778089E-05   Total=     0.02053459
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85789658E+00         XY= -0.19402379E+00         XZ= -0.17872993E+00
                YY=  0.12459632E+01         YZ= -0.55537181E-04         ZZ=  0.12458470E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1457465E-02 Y= -0.8199328E-09 Z=  0.5883194E-02  Total=      0.0060610
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176609E+02         XY= -0.72873255E-02         XZ=  0.23480024E-01
                YY= -0.10161892E+02         YZ=  0.29415968E-01         ZZ= -0.12204589E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16973401E-01 Y=  0.11106296E-10 Z= -0.44391436E-05   Total=     0.01697340
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92519201E+00         XY= -0.16037540E+00         XZ= -0.15572169E+00
                YY=  0.12459638E+01         YZ= -0.41943733E-04         ZZ=  0.12458717E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2585530E-02 Y= -0.8193548E-09 Z=  0.5882853E-02  Total=      0.0064260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187891E+02         XY= -0.12927653E-01         XZ=  0.17798587E-01
                YY= -0.10161891E+02         YZ=  0.29414262E-01         ZZ= -0.12204592E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69070680E-02 Y=  0.12474617E-10 Z= -0.33694125E-05   Total=     0.00690707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11154096E+01         XY= -0.65262334E-01         XZ= -0.73106841E-01
                YY=  0.12459562E+01         YZ= -0.31836227E-04         ZZ=  0.12458823E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2731693E-02 Y= -0.8193548E-09 Z=  0.5882479E-02  Total=      0.0064858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189351E+02         XY= -0.13658467E-01         XZ=  0.16526107E-01
                YY= -0.10161892E+02         YZ=  0.29412391E-01         ZZ= -0.12204597E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58539392E-02 Y=  0.10490362E-10 Z= -0.41900014E-05   Total=     0.00585394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13565531E+01         XY=  0.55311710E-01         XZ=  0.37852663E-01
                YY=  0.12459502E+01         YZ= -0.39589685E-04         ZZ=  0.12458627E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1834833E-02 Y= -0.8187047E-09 Z=  0.5881871E-02  Total=      0.0061614
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180381E+02         XY= -0.91741663E-02         XZ=  0.20169886E-01
                YY= -0.10161893E+02         YZ=  0.29409351E-01         ZZ= -0.12204605E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16448464E-01 Y=  0.57182244E-11 Z= -0.58201225E-05   Total=     0.01644846
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15567656E+01         XY=  0.15541546E+00         XZ=  0.13491495E+00
                YY=  0.12459536E+01         YZ= -0.54992137E-04         ZZ=  0.12458385E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2320604E-03 Y= -0.8172599E-09 Z=  0.5881146E-02  Total=      0.0058857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164354E+02         XY= -0.11603039E-02         XZ=  0.27362379E-01
                YY= -0.10161893E+02         YZ=  0.29405727E-01         ZZ= -0.12204612E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20816410E-01 Y=  0.10943945E-12 Z= -0.60476781E-05   Total=     0.02081641
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16393149E+01         XY=  0.19668657E+00         XZ=  0.18093191E+00
                YY=  0.12459613E+01         YZ= -0.57142274E-04         ZZ=  0.12458418E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1467967E-02 Y= -0.8155261E-09 Z=  0.5880580E-02  Total=      0.0060610
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147358E+02         XY=  0.73398328E-02         XZ=  0.35373518E-01
                YY= -0.10161891E+02         YZ=  0.29402899E-01         ZZ= -0.12204615E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17254568E-01 Y= -0.38678570E-11 Z= -0.45808813E-05   Total=     0.01725457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15720046E+01         XY=  0.16303204E+00         XZ=  0.15805088E+00
                YY=  0.12459620E+01         YZ= -0.43283086E-04         ZZ=  0.12458670E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2616174E-02 Y= -0.8160318E-09 Z=  0.5880228E-02  Total=      0.0064359
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135877E+02         XY=  0.13080867E-01         XZ=  0.41145550E-01
                YY= -0.10161890E+02         YZ=  0.29401139E-01         ZZ= -0.12204618E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70803984E-02 Y= -0.43863282E-11 Z= -0.34708322E-05   Total=     0.00708040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13797319E+01         XY=  0.66900069E-01         XZ=  0.74636280E-01
                YY=  0.12459542E+01         YZ= -0.32794645E-04         ZZ=  0.12458781E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2770878E-02 Y= -0.8169709E-09 Z=  0.5879845E-02  Total=      0.0065000
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134329E+02         XY=  0.13854390E-01         XZ=  0.42459522E-01
                YY= -0.10161891E+02         YZ=  0.29399222E-01         ZZ= -0.12204624E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58547977E-02 Y= -0.11562150E-11 Z= -0.42944605E-05   Total=     0.00585480
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11352874E+01         XY= -0.55319821E-01         XZ= -0.37768470E-01
                YY=  0.12459480E+01         YZ= -0.40576779E-04         ZZ=  0.12458583E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1867676E-02 Y= -0.8148759E-09 Z=  0.5879223E-02  Total=      0.0061687
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143359E+02         XY=  0.93383781E-02         XZ=  0.38788741E-01
                YY= -0.10161892E+02         YZ=  0.29396111E-01         ZZ= -0.12204632E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16623636E-01 Y=  0.43776125E-11 Z= -0.59667794E-05   Total=     0.01662364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93179089E+00         XY= -0.15707060E+00         XZ= -0.13635730E+00
                YY=  0.12459515E+01         YZ= -0.56377856E-04         ZZ=  0.12458335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2460600E-03 Y= -0.8119863E-09 Z=  0.5878478E-02  Total=      0.0058836
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159576E+02         XY=  0.12302983E-02         XZ=  0.31509752E-01
                YY= -0.10161891E+02         YZ=  0.29392390E-01         ZZ= -0.12204638E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21099576E-01 Y=  0.96573464E-11 Z= -0.62174583E-05   Total=     0.02109958
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84721520E+00         XY= -0.19936210E+00         XZ= -0.18336981E+00
                YY=  0.12459594E+01         YZ= -0.58746384E-04         ZZ=  0.12458365E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1478158E-02 Y= -0.8110472E-09 Z=  0.5877895E-02  Total=      0.0060609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176822E+02         XY= -0.73907928E-02         XZ=  0.23385492E-01
                YY= -0.10161889E+02         YZ=  0.29389474E-01         ZZ= -0.12204642E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17538071E-01 Y=  0.12183079E-10 Z= -0.47227304E-05   Total=     0.01753807
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91451660E+00         XY= -0.16571075E+00         XZ= -0.16056852E+00
                YY=  0.12459602E+01         YZ= -0.44623231E-04         ZZ=  0.12458622E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2646694E-02 Y= -0.8112639E-09 Z=  0.5877532E-02  Total=      0.0064460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188509E+02         XY= -0.13233473E-01         XZ=  0.17515179E-01
                YY= -0.10161888E+02         YZ=  0.29387658E-01         ZZ= -0.12204645E+02
  Expectation value of momentum operator [a. u.]
    X= -0.72561728E-02 Y=  0.10693930E-10 Z= -0.35723884E-05   Total=     0.00725617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11088074E+01         XY= -0.68560896E-01         XZ= -0.76313903E-01
                YY=  0.12459522E+01         YZ= -0.33754087E-04         ZZ=  0.12458739E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2810107E-02 Y= -0.8122752E-09 Z=  0.5877140E-02  Total=      0.0065144
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190142E+02         XY= -0.14050537E-01         XZ=  0.16151442E-01
                YY= -0.10161889E+02         YZ=  0.29385697E-01         ZZ= -0.12204651E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58540377E-02 Y=  0.58011979E-11 Z= -0.43997374E-05   Total=     0.00585404
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13565495E+01         XY=  0.55312640E-01         XZ=  0.37510305E-01
                YY=  0.12459458E+01         YZ= -0.41571443E-04         ZZ=  0.12458539E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1900645E-02 Y= -0.8133589E-09 Z=  0.5876503E-02  Total=      0.0061762
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181045E+02         XY= -0.95032290E-02         XZ=  0.19836465E-01
                YY= -0.10161891E+02         YZ=  0.29382514E-01         ZZ= -0.12204659E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16798645E-01 Y= -0.23930564E-12 Z= -0.61160243E-05   Total=     0.01679865
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15633778E+01         XY=  0.15872419E+00         XZ=  0.13757291E+00
                YY=  0.12459493E+01         YZ= -0.57788055E-04         ZZ=  0.12458283E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2601531E-03 Y= -0.8135756E-09 Z=  0.5875739E-02  Total=      0.0058815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164642E+02         XY= -0.13007677E-02         XZ=  0.27187189E-01
                YY= -0.10161890E+02         YZ=  0.29378692E-01         ZZ= -0.12204666E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21384118E-01 Y= -0.45314409E-11 Z= -0.63916417E-05   Total=     0.02138412
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16500382E+01         XY=  0.20205063E+00         XZ=  0.18558311E+00
                YY=  0.12459574E+01         YZ= -0.60392298E-04         ZZ=  0.12458311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1488393E-02 Y= -0.8125642E-09 Z=  0.5875138E-02  Total=      0.0060607
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147160E+02         XY=  0.74419626E-02         XZ=  0.35413455E-01
                YY= -0.10161888E+02         YZ=  0.29375686E-01         ZZ= -0.12204670E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17823995E-01 Y= -0.48683338E-11 Z= -0.48692603E-05   Total=     0.01782400
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15827603E+01         XY=  0.16841234E+00         XZ=  0.16292653E+00
                YY=  0.12459582E+01         YZ= -0.46007881E-04         ZZ=  0.12458573E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2677448E-02 Y= -0.8119863E-09 Z=  0.5874763E-02  Total=      0.0064561
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135271E+02         XY=  0.13387239E-01         XZ=  0.41375587E-01
                YY= -0.10161887E+02         YZ=  0.29373813E-01         ZZ= -0.12204673E+02
  Expectation value of momentum operator [a. u.]
    X=  0.74345217E-02 Y= -0.77583575E-12 Z= -0.36770780E-05   Total=     0.00743452
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13864187E+01         XY=  0.70246050E-01         XZ=  0.77877480E-01
                YY=  0.12459501E+01         YZ= -0.34743357E-04         ZZ=  0.12458695E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2849742E-02 Y= -0.8121308E-09 Z=  0.5874362E-02  Total=      0.0065291
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133547E+02         XY=  0.14248707E-01         XZ=  0.42782023E-01
                YY= -0.10161888E+02         YZ=  0.29371806E-01         ZZ= -0.12204678E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58515006E-02 Y=  0.62191150E-11 Z= -0.45061185E-05   Total=     0.00585150
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11353441E+01         XY= -0.55288668E-01         XZ= -0.37402552E-01
                YY=  0.12459435E+01         YZ= -0.42576595E-04         ZZ=  0.12458493E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1934111E-02 Y= -0.8112639E-09 Z=  0.5873711E-02  Total=      0.0061840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142701E+02         XY=  0.96705530E-02         XZ=  0.39070515E-01
                YY= -0.10161889E+02         YZ=  0.29368551E-01         ZZ= -0.12204687E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16973329E-01 Y=  0.13233710E-10 Z= -0.62652501E-05   Total=     0.01697333
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92517725E+00         XY= -0.16037472E+00         XZ= -0.13901424E+00
                YY=  0.12459471E+01         YZ= -0.59197922E-04         ZZ=  0.12458231E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2747163E-03 Y= -0.8101803E-09 Z=  0.5872926E-02  Total=      0.0058793
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159296E+02         XY=  0.13735793E-02         XZ=  0.31632814E-01
                YY= -0.10161888E+02         YZ=  0.29364629E-01         ZZ= -0.12204694E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21669901E-01 Y=  0.17305460E-10 Z= -0.65656183E-05   Total=     0.02166990
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83643259E+00         XY= -0.20475089E+00         XZ= -0.18804447E+00
                YY=  0.12459553E+01         YZ= -0.62035956E-04         ZZ=  0.12458257E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1498290E-02 Y= -0.8098913E-09 Z=  0.5872307E-02  Total=      0.0060604
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177030E+02         XY= -0.74914543E-02         XZ=  0.23292119E-01
                YY= -0.10161886E+02         YZ=  0.29361532E-01         ZZ= -0.12204698E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18112257E-01 Y=  0.16723660E-10 Z= -0.50155518E-05   Total=     0.01811226
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90366110E+00         XY= -0.17113602E+00         XZ= -0.16548405E+00
                YY=  0.12459563E+01         YZ= -0.47389955E-04         ZZ=  0.12458524E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2708055E-02 Y= -0.8104692E-09 Z=  0.5871921E-02  Total=      0.0064663
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189130E+02         XY= -0.13540279E-01         XZ=  0.17230009E-01
                YY= -0.10161885E+02         YZ=  0.29359602E-01         ZZ= -0.12204701E+02
  Expectation value of momentum operator [a. u.]
    X= -0.76154353E-02 Y=  0.11808273E-10 Z= -0.37816033E-05   Total=     0.00761544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11020130E+01         XY= -0.71955436E-01         XZ= -0.79598344E-01
                YY=  0.12459479E+01         YZ= -0.35730873E-04         ZZ=  0.12458651E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2889409E-02 Y= -0.8105415E-09 Z=  0.5871510E-02  Total=      0.0065440
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190942E+02         XY= -0.14447045E-01         XZ=  0.15772169E-01
                YY= -0.10161886E+02         YZ=  0.29357549E-01         ZZ= -0.12204707E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58471146E-02 Y=  0.47767997E-11 Z= -0.46134209E-05   Total=     0.00584712
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13564130E+01         XY=  0.55247226E-01         XZ=  0.37110411E-01
                YY=  0.12459412E+01         YZ= -0.43590469E-04         ZZ=  0.12458447E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1967711E-02 Y= -0.8103970E-09 Z=  0.5870845E-02  Total=      0.0061918
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181723E+02         XY= -0.98385570E-02         XZ=  0.19496709E-01
                YY= -0.10161888E+02         YZ=  0.29354221E-01         ZZ= -0.12204716E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17147538E-01 Y= -0.12465006E-11 Z= -0.64178584E-05   Total=     0.01714754
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15699654E+01         XY=  0.16202075E+00         XZ=  0.14021423E+00
                YY=  0.12459448E+01         YZ= -0.60639983E-04         ZZ=  0.12458177E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2894059E-03 Y= -0.8101080E-09 Z=  0.5870040E-02  Total=      0.0058772
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164941E+02         XY= -0.14470315E-02         XZ=  0.27005680E-01
                YY= -0.10161887E+02         YZ=  0.29350197E-01         ZZ= -0.12204723E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21956713E-01 Y= -0.36343512E-11 Z= -0.67455224E-05   Total=     0.02195671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16608535E+01         XY=  0.20746087E+00         XZ=  0.19026426E+00
                YY=  0.12459532E+01         YZ= -0.63735979E-04         ZZ=  0.12458200E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1508172E-02 Y= -0.8096023E-09 Z=  0.5869402E-02  Total=      0.0060601
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146969E+02         XY=  0.75408573E-02         XZ=  0.35448802E-01
                YY= -0.10161885E+02         YZ=  0.29347006E-01         ZZ= -0.12204727E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18402606E-01 Y= -0.14378660E-11 Z= -0.51684605E-05   Total=     0.01840261
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15936894E+01         XY=  0.17387943E+00         XZ=  0.16786706E+00
                YY=  0.12459542E+01         YZ= -0.48834886E-04         ZZ=  0.12458473E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2738813E-02 Y= -0.8092411E-09 Z=  0.5869003E-02  Total=      0.0064766
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134665E+02         XY=  0.13694062E-01         XZ=  0.41603813E-01
                YY= -0.10161884E+02         YZ=  0.29345015E-01         ZZ= -0.12204730E+02
  Expectation value of momentum operator [a. u.]
    X=  0.77986547E-02 Y=  0.41875294E-11 Z= -0.38910285E-05   Total=     0.00779866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13932943E+01         XY=  0.73686608E-01         XZ=  0.81193937E-01
                YY=  0.12459457E+01         YZ= -0.36764856E-04         ZZ=  0.12458606E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2929380E-02 Y= -0.8088077E-09 Z=  0.5868584E-02  Total=      0.0065591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132757E+02         XY=  0.14646897E-01         XZ=  0.43105497E-01
                YY= -0.10161885E+02         YZ=  0.29342916E-01         ZZ= -0.12204736E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58411202E-02 Y=  0.10502265E-10 Z= -0.47228524E-05   Total=     0.00584112
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11355344E+01         XY= -0.55190587E-01         XZ= -0.36979161E-01
                YY=  0.12459388E+01         YZ= -0.44624400E-04         ZZ=  0.12458400E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2001696E-02 Y= -0.8080130E-09 Z=  0.5867903E-02  Total=      0.0061999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142032E+02         XY=  0.10008478E-01         XZ=  0.39355017E-01
                YY= -0.10161886E+02         YZ=  0.29339514E-01         ZZ= -0.12204745E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17321476E-01 Y=  0.14413065E-10 Z= -0.65704383E-05   Total=     0.01732148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91859254E+00         XY= -0.16366423E+00         XZ= -0.14165259E+00
                YY=  0.12459424E+01         YZ= -0.62081523E-04         ZZ=  0.12458123E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3044541E-03 Y= -0.8064960E-09 Z=  0.5867078E-02  Total=      0.0058750
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159006E+02         XY=  0.15222686E-02         XZ=  0.31758691E-01
                YY= -0.10161885E+02         YZ=  0.29335388E-01         ZZ= -0.12204753E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22244710E-01 Y=  0.13858578E-10 Z= -0.69242455E-05   Total=     0.02224471
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82556501E+00         XY= -0.21018205E+00         XZ= -0.19274559E+00
                YY=  0.12459510E+01         YZ= -0.65424522E-04         ZZ=  0.12458143E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1517820E-02 Y= -0.8059903E-09 Z=  0.5866421E-02  Total=      0.0060596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177232E+02         XY= -0.75891020E-02         XZ=  0.23199990E-01
                YY= -0.10161883E+02         YZ=  0.29332102E-01         ZZ= -0.12204757E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18695156E-01 Y=  0.87282368E-11 Z= -0.53195146E-05   Total=     0.01869516
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89264069E+00         XY= -0.17664363E+00         XZ= -0.17046007E+00
                YY=  0.12459521E+01         YZ= -0.50262055E-04         ZZ=  0.12458421E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2769515E-02 Y= -0.8064960E-09 Z=  0.5866011E-02  Total=      0.0064869
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189751E+02         XY= -0.13847574E-01         XZ=  0.16943491E-01
                YY= -0.10161882E+02         YZ=  0.29330052E-01         ZZ= -0.12204760E+02
  Expectation value of momentum operator [a. u.]
    X= -0.79842518E-02 Y=  0.90651727E-12 Z= -0.39984501E-05   Total=     0.00798425
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10950378E+01         XY= -0.75440246E-01         XZ= -0.82953476E-01
                YY=  0.12459435E+01         YZ= -0.37779871E-04         ZZ=  0.12458560E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2969459E-02 Y= -0.8064237E-09 Z=  0.5865582E-02  Total=      0.0065744
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191749E+02         XY= -0.14847295E-01         XZ=  0.15388947E-01
                YY= -0.10161883E+02         YZ=  0.29327906E-01         ZZ= -0.12204766E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58334824E-02 Y= -0.65698839E-11 Z= -0.48315586E-05   Total=     0.00583348
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13561494E+01         XY=  0.55118421E-01         XZ=  0.36657003E-01
                YY=  0.12459364E+01         YZ= -0.45651668E-04         ZZ=  0.12458352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2035876E-02 Y= -0.8074351E-09 Z=  0.5864887E-02  Total=      0.0062082
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182411E+02         XY= -0.10179383E-01         XZ=  0.19151395E-01
                YY= -0.10161884E+02         YZ=  0.29324431E-01         ZZ= -0.12204775E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17495143E-01 Y= -0.10855678E-10 Z= -0.67253010E-05   Total=     0.01749514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15765284E+01         XY=  0.16530515E+00         XZ=  0.14283974E+00
                YY=  0.12459400E+01         YZ= -0.63544976E-04         ZZ=  0.12458068E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3196754E-03 Y= -0.8077963E-09 Z=  0.5864040E-02  Total=      0.0058727
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165250E+02         XY= -0.15983790E-02         XZ=  0.26818604E-01
                YY= -0.10161884E+02         YZ=  0.29320200E-01         ZZ= -0.12204783E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22533933E-01 Y= -0.10537725E-10 Z= -0.71085593E-05   Total=     0.02253393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16717560E+01         XY=  0.21291481E+00         XZ=  0.19497327E+00
                YY=  0.12459488E+01         YZ= -0.67166240E-04         ZZ=  0.12458085E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1527418E-02 Y= -0.8075074E-09 Z=  0.5863364E-02  Total=      0.0060590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146783E+02         XY=  0.76370895E-02         XZ=  0.35480171E-01
                YY= -0.10161881E+02         YZ=  0.29316816E-01         ZZ= -0.12204788E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18989988E-01 Y= -0.62196037E-11 Z= -0.54776070E-05   Total=     0.01898999
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16047840E+01         XY=  0.17942938E+00         XZ=  0.17286834E+00
                YY=  0.12459500E+01         YZ= -0.51755938E-04         ZZ=  0.12458368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2800345E-02 Y= -0.8089522E-09 Z=  0.5862941E-02  Total=      0.0064974
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134056E+02         XY=  0.14001722E-01         XZ=  0.41830636E-01
                YY= -0.10161880E+02         YZ=  0.29314704E-01         ZZ= -0.12204791E+02
  Expectation value of momentum operator [a. u.]
    X=  0.81723490E-02 Y= -0.20156620E-12 Z= -0.41117249E-05   Total=     0.00817235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14003504E+01         XY=  0.77217507E-01         XZ=  0.84580654E-01
                YY=  0.12459412E+01         YZ= -0.38850172E-04         ZZ=  0.12458513E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3009833E-02 Y= -0.8092411E-09 Z=  0.5862502E-02  Total=      0.0065900
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131960E+02         XY=  0.15049161E-01         XZ=  0.43430132E-01
                YY= -0.10161881E+02         YZ=  0.29312510E-01         ZZ= -0.12204797E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58240451E-02 Y=  0.45844231E-11 Z= -0.49435587E-05   Total=     0.00582405
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11358510E+01         XY= -0.55029251E-01         XZ= -0.36503048E-01
                YY=  0.12459339E+01         YZ= -0.46709822E-04         ZZ=  0.12458303E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2070443E-02 Y= -0.8070739E-09 Z=  0.5861792E-02  Total=      0.0062167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141352E+02         XY=  0.10352215E-01         XZ=  0.39642240E-01
                YY= -0.10161883E+02         YZ=  0.29308960E-01         ZZ= -0.12204806E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17668368E-01 Y=  0.58951228E-11 Z= -0.68812628E-05   Total=     0.01766837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91203129E+00         XY= -0.16694189E+00         XZ= -0.14427621E+00
                YY=  0.12459375E+01         YZ= -0.65018461E-04         ZZ=  0.12458012E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3352669E-03 Y= -0.8047622E-09 Z=  0.5860925E-02  Total=      0.0058705
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158705E+02         XY=  0.16763327E-02         XZ=  0.31887239E-01
                YY= -0.10161882E+02         YZ=  0.29304624E-01         ZZ= -0.12204814E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22824220E-01 Y=  0.31569028E-11 Z= -0.72926788E-05   Total=     0.02282422
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81460836E+00         XY= -0.21565763E+00         XZ= -0.19747599E+00
                YY=  0.12459465E+01         YZ= -0.68905801E-04         ZZ=  0.12458026E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1536766E-02 Y= -0.8040398E-09 Z=  0.5860229E-02  Total=      0.0060584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177429E+02         XY= -0.76838339E-02         XZ=  0.23108873E-01
                YY= -0.10161880E+02         YZ=  0.29301142E-01         ZZ= -0.12204819E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19286976E-01 Y= -0.23222280E-11 Z= -0.56346838E-05   Total=     0.01928698
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88145149E+00         XY= -0.18223552E+00         XZ= -0.17549874E+00
                YY=  0.12459478E+01         YZ= -0.53240065E-04         ZZ=  0.12458315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2831104E-02 Y= -0.8051957E-09 Z=  0.5859794E-02  Total=      0.0065079
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190375E+02         XY= -0.14155520E-01         XZ=  0.16655327E-01
                YY= -0.10161879E+02         YZ=  0.29298968E-01         ZZ= -0.12204822E+02
  Expectation value of momentum operator [a. u.]
    X= -0.83628798E-02 Y= -0.79867433E-11 Z= -0.42237076E-05   Total=     0.00836288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10878769E+01         XY= -0.79017763E-01         XZ= -0.86381390E-01
                YY=  0.12459389E+01         YZ= -0.39908320E-04         ZZ=  0.12458466E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3050307E-02 Y= -0.8070739E-09 Z=  0.5859346E-02  Total=      0.0066058
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192565E+02         XY= -0.15251538E-01         XZ=  0.15001411E-01
                YY= -0.10161880E+02         YZ=  0.29296726E-01         ZZ= -0.12204829E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58128111E-02 Y= -0.11208420E-10 Z= -0.50554669E-05   Total=     0.00581281
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13557526E+01         XY=  0.54923105E-01         XZ=  0.36147755E-01
                YY=  0.12459313E+01         YZ= -0.47767334E-04         ZZ=  0.12458254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2105214E-02 Y= -0.8099635E-09 Z=  0.5858621E-02  Total=      0.0062254
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183112E+02         XY= -0.10526072E-01         XZ=  0.18800074E-01
                YY= -0.10161881E+02         YZ=  0.29293102E-01         ZZ= -0.12204838E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17841099E-01 Y= -0.10460865E-10 Z= -0.70401700E-05   Total=     0.01784110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15830599E+01         XY=  0.16857396E+00         XZ=  0.14544701E+00
                YY=  0.12459350E+01         YZ= -0.66520054E-04         ZZ=  0.12457955E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3510592E-03 Y= -0.8106137E-09 Z=  0.5857732E-02  Total=      0.0058682
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165572E+02         XY= -0.17552981E-02         XZ=  0.26625428E-01
                YY= -0.10161880E+02         YZ=  0.29288658E-01         ZZ= -0.12204846E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23115484E-01 Y= -0.59676306E-11 Z= -0.74831893E-05   Total=     0.02311549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16827401E+01         XY=  0.21840967E+00         XZ=  0.19970822E+00
                YY=  0.12459442E+01         YZ= -0.70705942E-04         ZZ=  0.12457966E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1546018E-02 Y= -0.8108304E-09 Z=  0.5857015E-02  Total=      0.0060576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146605E+02         XY=  0.77300857E-02         XZ=  0.35506972E-01
                YY= -0.10161878E+02         YZ=  0.29285075E-01         ZZ= -0.12204851E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19586026E-01 Y=  0.45351201E-12 Z= -0.57997120E-05   Total=     0.01958603
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16160420E+01         XY=  0.18506113E+00         XZ=  0.17792981E+00
                YY=  0.12459455E+01         YZ= -0.54799334E-04         ZZ=  0.12458259E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2861929E-02 Y= -0.8127087E-09 Z=  0.5856567E-02  Total=      0.0065184
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133448E+02         XY=  0.14309641E-01         XZ=  0.42055469E-01
                YY= -0.10161877E+02         YZ=  0.29282835E-01         ZZ= -0.12204855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.85557589E-02 Y=  0.62535068E-11 Z= -0.43423531E-05   Total=     0.00855576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14075898E+01         XY=  0.80840206E-01         XZ=  0.88039167E-01
                YY=  0.12459365E+01         YZ= -0.41029239E-04         ZZ=  0.12458416E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3091006E-02 Y= -0.8126365E-09 Z=  0.5856109E-02  Total=      0.0066218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131156E+02         XY=  0.15455026E-01         XZ=  0.43755435E-01
                YY= -0.10161878E+02         YZ=  0.29280544E-01         ZZ= -0.12204861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57998474E-02 Y=  0.93097785E-11 Z= -0.51710958E-05   Total=     0.00579985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11363020E+01         XY= -0.54800616E-01         XZ= -0.35970428E-01
                YY=  0.12459287E+01         YZ= -0.48859697E-04         ZZ=  0.12458203E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2140298E-02 Y= -0.8103970E-09 Z=  0.5855369E-02  Total=      0.0062343
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140661E+02         XY=  0.10701490E-01         XZ=  0.39931880E-01
                YY= -0.10161879E+02         YZ=  0.29276843E-01         ZZ= -0.12204871E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18013395E-01 Y=  0.88454186E-11 Z= -0.72000850E-05   Total=     0.01801340
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90550505E+00         XY= -0.17020191E+00         XZ= -0.14687967E+00
                YY=  0.12459324E+01         YZ= -0.68030870E-04         ZZ=  0.12457897E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3671507E-03 Y= -0.8087355E-09 Z=  0.5854459E-02  Total=      0.0058660
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158393E+02         XY=  0.18357515E-02         XZ=  0.32018395E-01
                YY= -0.10161879E+02         YZ=  0.29272291E-01         ZZ= -0.12204879E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23407803E-01 Y=  0.57014495E-11 Z= -0.76729824E-05   Total=     0.02340780
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80357449E+00         XY= -0.22117168E+00         XZ= -0.20222997E+00
                YY=  0.12459418E+01         YZ= -0.72499129E-04         ZZ=  0.12457905E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1555087E-02 Y= -0.8080853E-09 Z=  0.5853722E-02  Total=      0.0060568
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177620E+02         XY= -0.77754372E-02         XZ=  0.23018933E-01
                YY= -0.10161876E+02         YZ=  0.29268607E-01         ZZ= -0.12204884E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19887266E-01 Y=  0.18657236E-11 Z= -0.59629633E-05   Total=     0.01988727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87010201E+00         XY= -0.18790743E+00         XZ= -0.18059572E+00
                YY=  0.12459432E+01         YZ= -0.56341823E-04         ZZ=  0.12458203E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2892753E-02 Y= -0.8066405E-09 Z=  0.5853261E-02  Total=      0.0065291
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190999E+02         XY= -0.14463766E-01         XZ=  0.16365834E-01
                YY= -0.10161875E+02         YZ=  0.29266303E-01         ZZ= -0.12204888E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87511942E-02 Y= -0.49879793E-12 Z= -0.44588538E-05   Total=     0.00875120
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10805327E+01         XY= -0.82686802E-01         XZ= -0.89880456E-01
                YY=  0.12459340E+01         YZ= -0.42130068E-04         ZZ=  0.12458367E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3131885E-02 Y= -0.8051234E-09 Z=  0.5852793E-02  Total=      0.0066381
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193389E+02         XY= -0.15659427E-01         XZ=  0.14609898E-01
                YY= -0.10161876E+02         YZ=  0.29263962E-01         ZZ= -0.12204894E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57848504E-02 Y= -0.59236384E-13 Z= -0.52857545E-05   Total=     0.00578485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13552177E+01         XY=  0.54658915E-01         XZ=  0.35580947E-01
                YY=  0.12459261E+01         YZ= -0.49943143E-04         ZZ=  0.12458152E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2175685E-02 Y= -0.8049067E-09 Z=  0.5852038E-02  Total=      0.0062434
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183824E+02         XY= -0.10878428E-01         XZ=  0.18442966E-01
                YY= -0.10161878E+02         YZ=  0.29260186E-01         ZZ= -0.12204904E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18184856E-01 Y=  0.31131382E-11 Z= -0.73620908E-05   Total=     0.01818486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15895497E+01         XY=  0.17182199E+00         XZ=  0.14803142E+00
                YY=  0.12459298E+01         YZ= -0.69561651E-04         ZZ=  0.12457838E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3835677E-03 Y= -0.8040398E-09 Z=  0.5851105E-02  Total=      0.0058637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165904E+02         XY= -0.19178406E-02         XZ=  0.26426143E-01
                YY= -0.10161877E+02         YZ=  0.29255524E-01         ZZ= -0.12204913E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23700698E-01 Y=  0.76455564E-11 Z= -0.78683988E-05   Total=     0.02370070
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16937932E+01         XY=  0.22393914E+00         XZ=  0.20446299E+00
                YY=  0.12459393E+01         YZ= -0.74345531E-04         ZZ=  0.12457842E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1563906E-02 Y= -0.8028839E-09 Z=  0.5850348E-02  Total=      0.0060558
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146434E+02         XY=  0.78195258E-02         XZ=  0.35528928E-01
                YY= -0.10161875E+02         YZ=  0.29251736E-01         ZZ= -0.12204918E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20190159E-01 Y=  0.11567736E-10 Z= -0.61335200E-05   Total=     0.02019016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16274526E+01         XY=  0.19076936E+00         XZ=  0.18304578E+00
                YY=  0.12459409E+01         YZ= -0.57953269E-04         ZZ=  0.12458146E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2923460E-02 Y= -0.8022338E-09 Z=  0.5849873E-02  Total=      0.0065397
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132841E+02         XY=  0.14617300E-01         XZ=  0.42277812E-01
                YY= -0.10161873E+02         YZ=  0.29249363E-01         ZZ= -0.12204922E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89486154E-02 Y=  0.13261672E-10 Z= -0.45814769E-05   Total=     0.00894862
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14150075E+01         XY=  0.84552162E-01         XZ=  0.91566022E-01
                YY=  0.12459315E+01         YZ= -0.43288573E-04         ZZ=  0.12458315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3172781E-02 Y= -0.8012947E-09 Z=  0.5849395E-02  Total=      0.0066545
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130346E+02         XY=  0.15863905E-01         XZ=  0.44080801E-01
                YY= -0.10161874E+02         YZ=  0.29246972E-01         ZZ= -0.12204928E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57684132E-02 Y=  0.12201421E-10 Z= -0.54036897E-05   Total=     0.00576842
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11368894E+01         XY= -0.54503606E-01         XZ= -0.35381461E-01
                YY=  0.12459233E+01         YZ= -0.51057367E-04         ZZ=  0.12458100E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2211161E-02 Y= -0.7999943E-09 Z=  0.5848624E-02  Total=      0.0062527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139960E+02         XY=  0.11055802E-01         XZ=  0.40223368E-01
                YY= -0.10161876E+02         YZ=  0.29243119E-01         ZZ= -0.12204938E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18356100E-01 Y=  0.91426451E-11 Z= -0.75248152E-05   Total=     0.01835610
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89902238E+00         XY= -0.17344001E+00         XZ= -0.14945989E+00
                YY=  0.12459270E+01         YZ= -0.71099124E-04         ZZ=  0.12457778E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4000455E-03 Y= -0.8001388E-09 Z=  0.5847670E-02  Total=      0.0058613
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158072E+02         XY=  0.20002257E-02         XZ=  0.32151750E-01
                YY= -0.10161875E+02         YZ=  0.29238347E-01         ZZ= -0.12204947E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23994817E-01 Y=  0.56969466E-11 Z= -0.80630437E-05   Total=     0.02399482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79247550E+00         XY= -0.22671816E+00         XZ= -0.20700225E+00
                YY=  0.12459368E+01         YZ= -0.76184675E-04         ZZ=  0.12457778E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1572792E-02 Y= -0.8012947E-09 Z=  0.5846891E-02  Total=      0.0060547
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177805E+02         XY= -0.78639614E-02         XZ=  0.22929997E-01
                YY= -0.10161873E+02         YZ=  0.29234454E-01         ZZ= -0.12204953E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20495399E-01 Y=  0.35208196E-11 Z= -0.63024524E-05   Total=     0.02049540
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85860404E+00         XY= -0.19365345E+00         XZ= -0.18574521E+00
                YY=  0.12459385E+01         YZ= -0.59549517E-04         ZZ=  0.12458087E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2954428E-02 Y= -0.8023060E-09 Z=  0.5846403E-02  Total=      0.0065505
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191624E+02         XY= -0.14772142E-01         XZ=  0.16075069E-01
                YY= -0.10161871E+02         YZ=  0.29232014E-01         ZZ= -0.12204956E+02
  Expectation value of momentum operator [a. u.]
    X= -0.91487614E-02 Y=  0.35234119E-11 Z= -0.47021203E-05   Total=     0.00914876
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10730134E+01         XY= -0.86443268E-01         XZ= -0.93445991E-01
                YY=  0.12459289E+01         YZ= -0.44428570E-04         ZZ=  0.12458264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3214133E-02 Y= -0.8038231E-09 Z=  0.5845915E-02  Total=      0.0066712
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194219E+02         XY= -0.16070666E-01         XZ=  0.14214632E-01
                YY= -0.10161872E+02         YZ=  0.29229573E-01         ZZ= -0.12204963E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57497583E-02 Y=  0.54735187E-11 Z= -0.55205793E-05   Total=     0.00574976
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13545478E+01         XY=  0.54327343E-01         XZ=  0.34959160E-01
                YY=  0.12459205E+01         YZ= -0.52161871E-04         ZZ=  0.12458046E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2247227E-02 Y= -0.8031729E-09 Z=  0.5845129E-02  Total=      0.0062622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184548E+02         XY= -0.11236138E-01         XZ=  0.18080361E-01
                YY= -0.10161874E+02         YZ=  0.29225643E-01         ZZ= -0.12204973E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18526331E-01 Y=  0.81808776E-11 Z= -0.76891840E-05   Total=     0.01852633
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15959960E+01         XY=  0.17504846E+00         XZ=  0.15059339E+00
                YY=  0.12459242E+01         YZ= -0.72652193E-04         ZZ=  0.12457717E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4171513E-03 Y= -0.8007167E-09 Z=  0.5844152E-02  Total=      0.0058590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166248E+02         XY= -0.20857585E-02         XZ=  0.26221024E-01
                YY= -0.10161873E+02         YZ=  0.29220760E-01         ZZ= -0.12204983E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24289375E-01 Y=  0.10140091E-10 Z= -0.82625586E-05   Total=     0.02428938
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17049114E+01         XY=  0.22950133E+00         XZ=  0.20923660E+00
                YY=  0.12459342E+01         YZ= -0.78069781E-04         ZZ=  0.12457713E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1581114E-02 Y= -0.7990552E-09 Z=  0.5843352E-02  Total=      0.0060535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146270E+02         XY=  0.79055698E-02         XZ=  0.35546253E-01
                YY= -0.10161871E+02         YZ=  0.29216759E-01         ZZ= -0.12204988E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20802230E-01 Y=  0.10306555E-10 Z= -0.64777887E-05   Total=     0.02080223
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16390131E+01         XY=  0.19655259E+00         XZ=  0.18821511E+00
                YY=  0.12459360E+01         YZ= -0.61206148E-04         ZZ=  0.12458027E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2984962E-02 Y= -0.7995609E-09 Z=  0.5842850E-02  Total=      0.0065612
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132234E+02         XY=  0.14924806E-01         XZ=  0.42497827E-01
                YY= -0.10161869E+02         YZ=  0.29214249E-01         ZZ= -0.12204992E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93509227E-02 Y=  0.86164956E-11 Z= -0.48279378E-05   Total=     0.00935092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14226035E+01         XY=  0.88353415E-01         XZ=  0.95160918E-01
                YY=  0.12459262E+01         YZ= -0.45617330E-04         ZZ=  0.12458210E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3255186E-02 Y= -0.7988385E-09 Z=  0.5842352E-02  Total=      0.0066880
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129530E+02         XY=  0.16275926E-01         XZ=  0.44406384E-01
                YY= -0.10161871E+02         YZ=  0.29211756E-01         ZZ= -0.12204999E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57295579E-02 Y=  0.59988815E-11 Z= -0.56397557E-05   Total=     0.00572956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11376167E+01         XY= -0.54136477E-01         XZ= -0.34735236E-01
                YY=  0.12459177E+01         YZ= -0.53287921E-04         ZZ=  0.12457992E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2283073E-02 Y= -0.7963823E-09 Z=  0.5841550E-02  Total=      0.0062719
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139249E+02         XY=  0.11415363E-01         XZ=  0.40516902E-01
                YY= -0.10161872E+02         YZ=  0.29207750E-01         ZZ= -0.12205009E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18696206E-01 Y=  0.38848800E-11 Z= -0.78532349E-05   Total=     0.01869621
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89258853E+00         XY= -0.17665355E+00         XZ= -0.15201519E+00
                YY=  0.12459214E+01         YZ= -0.74202285E-04         ZZ=  0.12457655E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4340157E-03 Y= -0.7945040E-09 Z=  0.5840551E-02  Total=      0.0058567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157740E+02         XY=  0.21700768E-02         XZ=  0.32287575E-01
                YY= -0.10161872E+02         YZ=  0.29202755E-01         ZZ= -0.12205019E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24585043E-01 Y=  0.34682958E-11 Z= -0.84602797E-05   Total=     0.02458504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78131553E+00         XY= -0.23229499E+00         XZ= -0.21179147E+00
                YY=  0.12459316E+01         YZ= -0.79938032E-04         ZZ=  0.12457648E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1589803E-02 Y= -0.7938539E-09 Z=  0.5839730E-02  Total=      0.0060523
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177983E+02         XY= -0.79490144E-02         XZ=  0.22842381E-01
                YY= -0.10161869E+02         YZ=  0.29198647E-01         ZZ= -0.12205024E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21111370E-01 Y=  0.50916061E-11 Z= -0.66505896E-05   Total=     0.02111137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84695765E+00         XY= -0.19947354E+00         XZ= -0.19094734E+00
                YY=  0.12459334E+01         YZ= -0.62838925E-04         ZZ=  0.12457967E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3016055E-02 Y= -0.7942151E-09 Z=  0.5839214E-02  Total=      0.0065721
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192248E+02         XY= -0.15080278E-01         XZ=  0.15783330E-01
                YY= -0.10161868E+02         YZ=  0.29196068E-01         ZZ= -0.12205028E+02
  Expectation value of momentum operator [a. u.]
    X= -0.95558741E-02 Y=  0.80647446E-11 Z= -0.49510279E-05   Total=     0.00955588
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10653135E+01         XY= -0.90289925E-01         XZ= -0.97080337E-01
                YY=  0.12459235E+01         YZ= -0.46780370E-04         ZZ=  0.12458157E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3297003E-02 Y= -0.7939261E-09 Z=  0.5838705E-02  Total=      0.0067053
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195056E+02         XY= -0.16485016E-01         XZ=  0.13815803E-01
                YY= -0.10161869E+02         YZ=  0.29193525E-01         ZZ= -0.12205035E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57069775E-02 Y=  0.11006302E-10 Z= -0.57573026E-05   Total=     0.00570698
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13537323E+01         XY=  0.53923122E-01         XZ=  0.34277994E-01
                YY=  0.12459147E+01         YZ= -0.54398537E-04         ZZ=  0.12457937E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2319835E-02 Y= -0.7929147E-09 Z=  0.5837889E-02  Total=      0.0062819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185282E+02         XY= -0.11599176E-01         XZ=  0.17712274E-01
                YY= -0.10161870E+02         YZ=  0.29189442E-01         ZZ= -0.12205046E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18864847E-01 Y=  0.12535542E-10 Z= -0.80185301E-05   Total=     0.01886485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16023860E+01         XY=  0.17824697E+00         XZ=  0.15312750E+00
                YY=  0.12459184E+01         YZ= -0.75764028E-04         ZZ=  0.12457592E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4518519E-03 Y= -0.7908920E-09 Z=  0.5836867E-02  Total=      0.0058543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166603E+02         XY= -0.22592611E-02         XZ=  0.26009884E-01
                YY= -0.10161870E+02         YZ=  0.29184334E-01         ZZ= -0.12205056E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24880926E-01 Y=  0.11969689E-10 Z= -0.86627290E-05   Total=     0.02488093
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17160836E+01         XY=  0.23509068E+00         XZ=  0.21402423E+00
                YY=  0.12459288E+01         YZ= -0.81850830E-04         ZZ=  0.12457581E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1597566E-02 Y= -0.7899529E-09 Z=  0.5836024E-02  Total=      0.0060507
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146113E+02         XY=  0.79878305E-02         XZ=  0.35558600E-01
                YY= -0.10161867E+02         YZ=  0.29180117E-01         ZZ= -0.12205061E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21421930E-01 Y=  0.96783670E-11 Z= -0.68299692E-05   Total=     0.02142193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16507173E+01         XY=  0.20240791E+00         XZ=  0.19343510E+00
                YY=  0.12459308E+01         YZ= -0.64533780E-04         ZZ=  0.12457905E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3046343E-02 Y= -0.7913254E-09 Z=  0.5835493E-02  Total=      0.0065828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131629E+02         XY=  0.15231715E-01         XZ=  0.42715105E-01
                YY= -0.10161866E+02         YZ=  0.29177464E-01         ZZ= -0.12205065E+02
  Expectation value of momentum operator [a. u.]
    X=  0.97627560E-02 Y=  0.69132146E-11 Z= -0.50797483E-05   Total=     0.00976276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14303793E+01         XY=  0.92244676E-01         XZ=  0.98824250E-01
                YY=  0.12459207E+01         YZ= -0.47996611E-04         ZZ=  0.12458101E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3338146E-02 Y= -0.7923368E-09 Z=  0.5834974E-02  Total=      0.0067224
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128709E+02         XY=  0.16690728E-01         XZ=  0.44731834E-01
                YY= -0.10161867E+02         YZ=  0.29174870E-01         ZZ= -0.12205072E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56828438E-02 Y=  0.51901409E-11 Z= -0.58777721E-05   Total=     0.00568285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11384923E+01         XY= -0.53695092E-01         XZ= -0.34028283E-01
                YY=  0.12459117E+01         YZ= -0.55536859E-04         ZZ=  0.12457881E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2356004E-02 Y= -0.7922646E-09 Z=  0.5834142E-02  Total=      0.0062919
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138528E+02         XY=  0.11780017E-01         XZ=  0.40812306E-01
                YY= -0.10161868E+02         YZ=  0.29170710E-01         ZZ= -0.12205083E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19033053E-01 Y=  0.55237710E-11 Z= -0.81842433E-05   Total=     0.01903305
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88621595E+00         XY= -0.17983629E+00         XZ= -0.15454002E+00
                YY=  0.12459154E+01         YZ= -0.77329850E-04         ZZ=  0.12457529E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4690821E-03 Y= -0.7923368E-09 Z=  0.5833098E-02  Total=      0.0058519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157398E+02         XY=  0.23454089E-02         XZ=  0.32425927E-01
                YY= -0.10161868E+02         YZ=  0.29165489E-01         ZZ= -0.12205093E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25177810E-01 Y=  0.78902156E-11 Z= -0.88641576E-05   Total=     0.02517781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77010723E+00         XY= -0.23789582E+00         XZ= -0.21659164E+00
                YY=  0.12459260E+01         YZ= -0.83754091E-04         ZZ=  0.12457513E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1606051E-02 Y= -0.7923368E-09 Z=  0.5832233E-02  Total=      0.0060493
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178154E+02         XY= -0.80302575E-02         XZ=  0.22756376E-01
                YY= -0.10161865E+02         YZ=  0.29161162E-01         ZZ= -0.12205099E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21734698E-01 Y=  0.11190196E-10 Z= -0.70074580E-05   Total=     0.02173470
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83517196E+00         XY= -0.20536313E+00         XZ= -0.19619736E+00
                YY=  0.12459281E+01         YZ= -0.66210795E-04         ZZ=  0.12457842E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3077538E-02 Y= -0.7922646E-09 Z=  0.5831688E-02  Total=      0.0065939
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192872E+02         XY= -0.15387692E-01         XZ=  0.15491069E-01
                YY= -0.10161864E+02         YZ=  0.29158438E-01         ZZ= -0.12205103E+02
  Expectation value of momentum operator [a. u.]
    X= -0.99723622E-02 Y=  0.13742170E-10 Z= -0.52059321E-05   Total=     0.00997236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10574361E+01         XY= -0.94225168E-01         XZ= -0.10078117E+00
                YY=  0.12459178E+01         YZ= -0.49188821E-04         ZZ=  0.12458046E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3380395E-02 Y= -0.7913254E-09 Z=  0.5831159E-02  Total=      0.0067401
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195899E+02         XY= -0.16901976E-01         XZ=  0.13413921E-01
                YY= -0.10161865E+02         YZ=  0.29155793E-01         ZZ= -0.12205111E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56563554E-02 Y=  0.14078276E-10 Z= -0.59960243E-05   Total=     0.00565636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13527683E+01         XY=  0.53444813E-01         XZ=  0.33537006E-01
                YY=  0.12459086E+01         YZ= -0.56654107E-04         ZZ=  0.12457825E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2393427E-02 Y= -0.7908197E-09 Z=  0.5830312E-02  Total=      0.0063025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186027E+02         XY= -0.11967139E-01         XZ=  0.17339162E-01
                YY= -0.10161866E+02         YZ=  0.29151556E-01         ZZ= -0.12205122E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19200023E-01 Y=  0.11664955E-10 Z= -0.83497814E-05   Total=     0.01920003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16087127E+01         XY=  0.18141393E+00         XZ=  0.15563105E+00
                YY=  0.12459123E+01         YZ= -0.78893909E-04         ZZ=  0.12457464E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4876218E-03 Y= -0.7908197E-09 Z=  0.5829245E-02  Total=      0.0058496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166970E+02         XY= -0.24381107E-02         XZ=  0.25793045E-01
                YY= -0.10161866E+02         YZ=  0.29146222E-01         ZZ= -0.12205132E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25474903E-01 Y=  0.71972596E-11 Z= -0.90683992E-05   Total=     0.02547490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17273013E+01         XY=  0.24070295E+00         XZ=  0.21882202E+00
                YY=  0.12459231E+01         YZ= -0.85683901E-04         ZZ=  0.12457445E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1613275E-02 Y= -0.7917589E-09 Z=  0.5828357E-02  Total=      0.0060475
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145965E+02         XY=  0.80663712E-02         XZ=  0.35566125E-01
                YY= -0.10161863E+02         YZ=  0.29141782E-01         ZZ= -0.12205138E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22048899E-01 Y=  0.23147247E-11 Z= -0.71896818E-05   Total=     0.02204890
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16625587E+01         XY=  0.20833190E+00         XZ=  0.19870200E+00
                YY=  0.12459253E+01         YZ= -0.67932635E-04         ZZ=  0.12457778E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3107592E-02 Y= -0.7931314E-09 Z=  0.5827797E-02  Total=      0.0066046
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131025E+02         XY=  0.15537960E-01         XZ=  0.42929648E-01
                YY= -0.10161861E+02         YZ=  0.29138984E-01         ZZ= -0.12205142E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10183941E-01 Y= -0.11392565E-11 Z= -0.53364859E-05   Total=     0.01018394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14383314E+01         XY=  0.96224301E-01         XZ=  0.10255334E+00
                YY=  0.12459149E+01         YZ= -0.50422500E-04         ZZ=  0.12457989E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3421638E-02 Y= -0.7929870E-09 Z=  0.5827258E-02  Total=      0.0067576
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127883E+02         XY=  0.17108191E-01         XZ=  0.45057051E-01
                YY= -0.10161862E+02         YZ=  0.29136287E-01         ZZ= -0.12205150E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56282446E-02 Y= -0.19740465E-11 Z= -0.61167809E-05   Total=     0.00562825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11395165E+01         XY= -0.53179204E-01         XZ= -0.33261779E-01
                YY=  0.12459055E+01         YZ= -0.57795226E-04         ZZ=  0.12457767E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2429932E-02 Y= -0.7926980E-09 Z=  0.5826395E-02  Total=      0.0063128
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137798E+02         XY=  0.12149660E-01         XZ=  0.41109438E-01
                YY= -0.10161864E+02         YZ=  0.29131974E-01         ZZ= -0.12205161E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19366478E-01 Y= -0.22163333E-12 Z= -0.85161205E-05   Total=     0.01936648
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87990773E+00         XY= -0.18298670E+00         XZ= -0.15703425E+00
                YY=  0.12459092E+01         YZ= -0.80465686E-04         ZZ=  0.12457399E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5052358E-03 Y= -0.7931314E-09 Z=  0.5825306E-02  Total=      0.0058472
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157045E+02         XY=  0.25261771E-02         XZ=  0.32566681E-01
                YY= -0.10161864E+02         YZ=  0.29126526E-01         ZZ= -0.12205171E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25772921E-01 Y=  0.28553513E-11 Z= -0.92725028E-05   Total=     0.02577292
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75885433E+00         XY= -0.24351881E+00         XZ= -0.22140182E+00
                YY=  0.12459202E+01         YZ= -0.87612437E-04         ZZ=  0.12457375E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1621533E-02 Y= -0.7944318E-09 Z=  0.5824395E-02  Total=      0.0060459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178318E+02         XY= -0.81076680E-02         XZ=  0.22671900E-01
                YY= -0.10161861E+02         YZ=  0.29121974E-01         ZZ= -0.12205178E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22365246E-01 Y=  0.53337527E-11 Z= -0.73709261E-05   Total=     0.02236525
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82324954E+00         XY= -0.21132095E+00         XZ= -0.20149419E+00
                YY=  0.12459224E+01         YZ= -0.69645121E-04         ZZ=  0.12457713E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3138863E-02 Y= -0.7955154E-09 Z=  0.5823821E-02  Total=      0.0066158
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193494E+02         XY= -0.15694318E-01         XZ=  0.15198259E-01
                YY= -0.10161859E+02         YZ=  0.29119102E-01         ZZ= -0.12205182E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10398196E-01 Y=  0.55209950E-11 Z= -0.54649951E-05   Total=     0.01039820
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10493818E+01         XY= -0.98248710E-01         XZ= -0.10454763E+00
                YY=  0.12459119E+01         YZ= -0.51636680E-04         ZZ=  0.12457931E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3464294E-02 Y= -0.7955154E-09 Z=  0.5823271E-02  Total=      0.0067758
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196747E+02         XY= -0.17321470E-01         XZ=  0.13009008E-01
                YY= -0.10161860E+02         YZ=  0.29116354E-01         ZZ= -0.12205189E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55978373E-02 Y=  0.27569597E-11 Z= -0.62352321E-05   Total=     0.00559784
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13516548E+01         XY=  0.52891897E-01         XZ=  0.32736777E-01
                YY=  0.12459022E+01         YZ= -0.58914388E-04         ZZ=  0.12457709E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2467992E-02 Y= -0.7958766E-09 Z=  0.5822393E-02  Total=      0.0063239
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186781E+02         XY= -0.12339963E-01         XZ=  0.16961086E-01
                YY= -0.10161862E+02         YZ=  0.29111965E-01         ZZ= -0.12205201E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19531795E-01 Y= -0.22479842E-11 Z= -0.86818981E-05   Total=     0.01953180
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16149748E+01         XY=  0.18454872E+00         XZ=  0.15810469E+00
                YY=  0.12459060E+01         YZ= -0.82032073E-04         ZZ=  0.12457333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5244496E-03 Y= -0.7956599E-09 Z=  0.5821281E-02  Total=      0.0058449
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167347E+02         XY= -0.26222498E-02         XZ=  0.25570613E-01
                YY= -0.10161861E+02         YZ=  0.29106402E-01         ZZ= -0.12205212E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26071319E-01 Y= -0.77031980E-11 Z= -0.94793164E-05   Total=     0.02607132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17385649E+01         XY=  0.24633827E+00         XZ=  0.22363114E+00
                YY=  0.12459172E+01         YZ= -0.89566629E-04         ZZ=  0.12457304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1628256E-02 Y= -0.7952264E-09 Z=  0.5820347E-02  Total=      0.0060438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145824E+02         XY=  0.81412769E-02         XZ=  0.35568991E-01
                YY= -0.10161859E+02         YZ=  0.29101735E-01         ZZ= -0.12205218E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22683292E-01 Y= -0.11530410E-10 Z= -0.75575765E-05   Total=     0.02268329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16745401E+01         XY=  0.21432605E+00         XZ=  0.20401782E+00
                YY=  0.12459196E+01         YZ= -0.71408851E-04         ZZ=  0.12457647E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3168741E-02 Y= -0.7956599E-09 Z=  0.5819758E-02  Total=      0.0066265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130423E+02         XY=  0.15843704E-01         XZ=  0.43141705E-01
                YY= -0.10161857E+02         YZ=  0.29098788E-01         ZZ= -0.12205223E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10614783E-01 Y= -0.12300006E-10 Z= -0.55993620E-05   Total=     0.01061478
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14464658E+01         XY=  0.10029516E+00         XZ=  0.10635103E+00
                YY=  0.12459089E+01         YZ= -0.52906412E-04         ZZ=  0.12457872E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3505720E-02 Y= -0.7952264E-09 Z=  0.5819198E-02  Total=      0.0067936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127052E+02         XY=  0.17528597E-01         XZ=  0.45382392E-01
                YY= -0.10161858E+02         YZ=  0.29095987E-01         ZZ= -0.12205230E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55653780E-02 Y= -0.98817330E-11 Z= -0.63580432E-05   Total=     0.00556538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11406967E+01         XY= -0.52585201E-01         XZ= -0.32432596E-01
                YY=  0.12458990E+01         YZ= -0.60074889E-04         ZZ=  0.12457650E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2504942E-02 Y= -0.7947930E-09 Z=  0.5818304E-02  Total=      0.0063346
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137057E+02         XY=  0.12524709E-01         XZ=  0.41408760E-01
                YY= -0.10161860E+02         YZ=  0.29091520E-01         ZZ= -0.12205242E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19696144E-01 Y= -0.55112666E-11 Z= -0.88500310E-05   Total=     0.01969615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87367025E+00         XY= -0.18610159E+00         XZ= -0.15949531E+00
                YY=  0.12459027E+01         YZ= -0.83620726E-04         ZZ=  0.12457267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5425795E-03 Y= -0.7949375E-09 Z=  0.5817169E-02  Total=      0.0058424
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156681E+02         XY=  0.27128958E-02         XZ=  0.32710365E-01
                YY= -0.10161859E+02         YZ=  0.29085842E-01         ZZ= -0.12205253E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26370223E-01 Y= -0.12372657E-11 Z= -0.96867039E-05   Total=     0.02637022
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74755975E+00         XY= -0.24916250E+00         XZ= -0.22622110E+00
                YY=  0.12459141E+01         YZ= -0.91526102E-04         ZZ=  0.12457233E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1636143E-02 Y= -0.7960933E-09 Z=  0.5816212E-02  Total=      0.0060420
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178473E+02         XY= -0.81807168E-02         XZ=  0.22589476E-01
                YY= -0.10161857E+02         YZ=  0.29081060E-01         ZZ= -0.12205260E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23003155E-01 Y=  0.99988361E-12 Z= -0.77428944E-05   Total=     0.02300316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81118776E+00         XY= -0.21734832E+00         XZ= -0.20683934E+00
                YY=  0.12459166E+01         YZ= -0.73159745E-04         ZZ=  0.12457580E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3199945E-02 Y= -0.7975381E-09 Z=  0.5815608E-02  Total=      0.0066378
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194114E+02         XY= -0.15999726E-01         XZ=  0.14905320E-01
                YY= -0.10161855E+02         YZ=  0.29078037E-01         ZZ= -0.12205264E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10833846E-01 Y=  0.23752966E-12 Z= -0.57303758E-05   Total=     0.01083385
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10411417E+01         XY= -0.10236501E+00         XZ= -0.10838402E+00
                YY=  0.12459057E+01         YZ= -0.54144205E-04         ZZ=  0.12457813E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3548656E-02 Y= -0.7978993E-09 Z=  0.5815037E-02  Total=      0.0068123
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197600E+02         XY= -0.17743284E-01         XZ=  0.12601272E-01
                YY= -0.10161856E+02         YZ=  0.29075185E-01         ZZ= -0.12205272E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55306715E-02 Y= -0.30854910E-11 Z= -0.64766660E-05   Total=     0.00553068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13503776E+01         XY=  0.52257272E-01         XZ=  0.31870611E-01
                YY=  0.12458956E+01         YZ= -0.61195653E-04         ZZ=  0.12457591E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2543547E-02 Y= -0.7974659E-09 Z=  0.5814129E-02  Total=      0.0063462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187546E+02         XY= -0.12717737E-01         XZ=  0.16577964E-01
                YY= -0.10161858E+02         YZ=  0.29070643E-01         ZZ= -0.12205284E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19859264E-01 Y= -0.73428825E-11 Z= -0.90157092E-05   Total=     0.01985927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16211552E+01         XY=  0.18764285E+00         XZ=  0.16054031E+00
                YY=  0.12458993E+01         YZ= -0.85186171E-04         ZZ=  0.12457199E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5624205E-03 Y= -0.7975381E-09 Z=  0.5812970E-02  Total=      0.0058401
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167736E+02         XY= -0.28121045E-02         XZ=  0.25342179E-01
                YY= -0.10161857E+02         YZ=  0.29064849E-01         ZZ= -0.12205295E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26669311E-01 Y= -0.10471996E-10 Z= -0.98954708E-05   Total=     0.02666931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17498580E+01         XY=  0.25198847E+00         XZ=  0.22844355E+00
                YY=  0.12459109E+01         YZ= -0.93498738E-04         ZZ=  0.12457161E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1642365E-02 Y= -0.7976826E-09 Z=  0.5811991E-02  Total=      0.0060396
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145692E+02         XY=  0.82118249E-02         XZ=  0.35566491E-01
                YY= -0.10161855E+02         YZ=  0.29059951E-01         ZZ= -0.12205302E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23324461E-01 Y= -0.10914105E-10 Z= -0.79331860E-05   Total=     0.02332446
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16866492E+01         XY=  0.22038422E+00         XZ=  0.20937617E+00
                YY=  0.12459136E+01         YZ= -0.74957838E-04         ZZ=  0.12457512E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3229607E-02 Y= -0.7984050E-09 Z=  0.5811370E-02  Total=      0.0066485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129824E+02         XY=  0.16148031E-01         XZ=  0.43350355E-01
                YY= -0.10161853E+02         YZ=  0.29056849E-01         ZZ= -0.12205307E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11054978E-01 Y= -0.83173777E-11 Z= -0.58676622E-05   Total=     0.01105498
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14547767E+01         XY=  0.10445440E+00         XZ=  0.11021380E+00
                YY=  0.12459026E+01         YZ= -0.55441444E-04         ZZ=  0.12457752E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3590197E-02 Y= -0.7996331E-09 Z=  0.5810789E-02  Total=      0.0068304
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126216E+02         XY=  0.17950982E-01         XZ=  0.45706851E-01
                YY= -0.10161854E+02         YZ=  0.29053943E-01         ZZ= -0.12205314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54941461E-02 Y= -0.36850073E-11 Z= -0.66005712E-05   Total=     0.00549415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11420347E+01         XY= -0.51912157E-01         XZ= -0.31540652E-01
                YY=  0.12458922E+01         YZ= -0.62366392E-04         ZZ=  0.12457530E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2580861E-02 Y= -0.7990552E-09 Z=  0.5809865E-02  Total=      0.0063573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136307E+02         XY=  0.12904302E-01         XZ=  0.41709337E-01
                YY= -0.10161855E+02         YZ=  0.29049325E-01         ZZ= -0.12205326E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20021593E-01 Y=  0.10895300E-11 Z= -0.91848111E-05   Total=     0.02002159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86751216E+00         XY= -0.18917663E+00         XZ= -0.16191965E+00
                YY=  0.12458959E+01         YZ= -0.86783880E-04         ZZ=  0.12457131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5809876E-03 Y= -0.7981883E-09 Z=  0.5808683E-02  Total=      0.0058377
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156306E+02         XY=  0.29049362E-02         XZ=  0.32856251E-01
                YY= -0.10161855E+02         YZ=  0.29043414E-01         ZZ= -0.12205338E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26969017E-01 Y=  0.40791545E-11 Z= -0.10105823E-04   Total=     0.02696902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73623669E+00         XY= -0.25482028E+00         XZ= -0.23104320E+00
                YY=  0.12459077E+01         YZ= -0.95486152E-04         ZZ=  0.12457087E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1649945E-02 Y= -0.7991274E-09 Z=  0.5807680E-02  Total=      0.0060375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178620E+02         XY= -0.82497269E-02         XZ=  0.22508681E-01
                YY= -0.10161852E+02         YZ=  0.29038398E-01         ZZ= -0.12205345E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23647640E-01 Y=  0.41780892E-11 Z= -0.81230199E-05   Total=     0.02364764
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79900143E+00         XY= -0.22343782E+00         XZ= -0.21222517E+00
                YY=  0.12459105E+01         YZ= -0.76751380E-04         ZZ=  0.12457443E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3260784E-02 Y= -0.8005722E-09 Z=  0.5807044E-02  Total=      0.0066599
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194732E+02         XY= -0.16303923E-01         XZ=  0.14612163E-01
                YY= -0.10161850E+02         YZ=  0.29035219E-01         ZZ= -0.12205350E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11278597E-01 Y=  0.15670460E-11 Z= -0.60022609E-05   Total=     0.01127860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10327294E+01         XY= -0.10656729E+00         XZ= -0.11228276E+00
                YY=  0.12458993E+01         YZ= -0.56713133E-04         ZZ=  0.12457691E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3633432E-02 Y= -0.8011502E-09 Z=  0.5806453E-02  Total=      0.0068496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198458E+02         XY= -0.18167161E-01         XZ=  0.12190938E-01
                YY= -0.10161851E+02         YZ=  0.29032261E-01         ZZ= -0.12205358E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54553996E-02 Y= -0.24120843E-11 Z= -0.67206786E-05   Total=     0.00545540
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13489470E+01         XY=  0.51546056E-01         XZ=  0.30944817E-01
                YY=  0.12458887E+01         YZ= -0.63501230E-04         ZZ=  0.12457469E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2620005E-02 Y= -0.8013669E-09 Z=  0.5805514E-02  Total=      0.0063693
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188321E+02         XY= -0.13100026E-01         XZ=  0.16190256E-01
                YY= -0.10161853E+02         YZ=  0.29027567E-01         ZZ= -0.12205370E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20182756E-01 Y= -0.58984418E-11 Z= -0.93516234E-05   Total=     0.02018276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16272601E+01         XY=  0.19069941E+00         XZ=  0.16294225E+00
                YY=  0.12458924E+01         YZ= -0.88360084E-04         ZZ=  0.12457062E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6014296E-03 Y= -0.8007890E-09 Z=  0.5804308E-02  Total=      0.0058354
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168135E+02         XY= -0.30071499E-02         XZ=  0.25108339E-01
                YY= -0.10161853E+02         YZ=  0.29021540E-01         ZZ= -0.12205382E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27269014E-01 Y= -0.73663674E-11 Z= -0.10317683E-04   Total=     0.02726902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17611831E+01         XY=  0.25765484E+00         XZ=  0.23326146E+00
                YY=  0.12459044E+01         YZ= -0.97488035E-04         ZZ=  0.12457013E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1655711E-02 Y= -0.8007167E-09 Z=  0.5803281E-02  Total=      0.0060349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145569E+02         XY=  0.82785514E-02         XZ=  0.35559258E-01
                YY= -0.10161850E+02         YZ=  0.29016405E-01         ZZ= -0.12205389E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23972425E-01 Y= -0.62952062E-11 Z= -0.83180992E-05   Total=     0.02397243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16988865E+01         XY=  0.22650659E+00         XZ=  0.21477748E+00
                YY=  0.12459073E+01         YZ= -0.78594699E-04         ZZ=  0.12457373E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3290289E-02 Y= -0.8011502E-09 Z=  0.5802629E-02  Total=      0.0066706
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129227E+02         XY=  0.16451445E-01         XZ=  0.43556196E-01
                YY= -0.10161848E+02         YZ=  0.29013144E-01         ZZ= -0.12205394E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11504506E-01 Y= -0.33564544E-11 Z= -0.61435447E-05   Total=     0.01150451
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14632636E+01         XY=  0.10870183E+00         XZ=  0.11414097E+00
                YY=  0.12458960E+01         YZ= -0.58048112E-04         ZZ=  0.12457628E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3675162E-02 Y= -0.8005722E-09 Z=  0.5802027E-02  Total=      0.0068681
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125377E+02         XY=  0.18375809E-01         XZ=  0.46030955E-01
                YY= -0.10161849E+02         YZ=  0.29010132E-01         ZZ= -0.12205402E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54145626E-02 Y= -0.51865001E-13 Z= -0.68464395E-05   Total=     0.00541457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11435302E+01         XY= -0.51160202E-01         XZ= -0.30587198E-01
                YY=  0.12458851E+01         YZ= -0.64689477E-04         ZZ=  0.12457406E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2657774E-02 Y= -0.7992719E-09 Z=  0.5801073E-02  Total=      0.0063809
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135548E+02         XY=  0.13288868E-01         XZ=  0.42011608E-01
                YY= -0.10161851E+02         YZ=  0.29005361E-01         ZZ= -0.12205414E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20342835E-01 Y=  0.20111253E-11 Z= -0.95219878E-05   Total=     0.02034284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86143328E+00         XY= -0.19221193E+00         XZ= -0.16430878E+00
                YY=  0.12458888E+01         YZ= -0.89969727E-04         ZZ=  0.12456991E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6205393E-03 Y= -0.7981883E-09 Z=  0.5799844E-02  Total=      0.0058329
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155921E+02         XY=  0.31026949E-02         XZ=  0.33004688E-01
                YY= -0.10161850E+02         YZ=  0.28999217E-01         ZZ= -0.12205427E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27569360E-01 Y=  0.18596583E-11 Z= -0.10530925E-04   Total=     0.02756936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72488407E+00         XY= -0.26049270E+00         XZ= -0.23587006E+00
                YY=  0.12459011E+01         YZ= -0.99502801E-04         ZZ=  0.12456937E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1662870E-02 Y= -0.7989829E-09 Z=  0.5798793E-02  Total=      0.0060325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178760E+02         XY= -0.83143530E-02         XZ=  0.22429761E-01
                YY= -0.10161848E+02         YZ=  0.28993962E-01         ZZ= -0.12205434E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24298881E-01 Y= -0.42767818E-12 Z= -0.85121977E-05   Total=     0.02429888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78668717E+00         XY= -0.22959115E+00         XZ= -0.21765436E+00
                YY=  0.12459041E+01         YZ= -0.80428613E-04         ZZ=  0.12457302E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3321332E-02 Y= -0.8005000E-09 Z=  0.5798124E-02  Total=      0.0066820
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195348E+02         XY= -0.16606663E-01         XZ=  0.14318911E-01
                YY= -0.10161846E+02         YZ=  0.28990620E-01         ZZ= -0.12205439E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11732804E-01 Y= -0.38066899E-11 Z= -0.62813348E-05   Total=     0.01173281
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10241381E+01         XY= -0.11085893E+00         XZ= -0.11624761E+00
                YY=  0.12458926E+01         YZ= -0.59350042E-04         ZZ=  0.12457565E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3718603E-02 Y= -0.8017281E-09 Z=  0.5797511E-02  Total=      0.0068876
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199320E+02         XY= -0.18593015E-01         XZ=  0.11777961E-01
                YY= -0.10161847E+02         YZ=  0.28987555E-01         ZZ= -0.12205447E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53714913E-02 Y= -0.67940018E-11 Z= -0.69673658E-05   Total=     0.00537150
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13473528E+01         XY=  0.50753238E-01         XZ=  0.29954550E-01
                YY=  0.12458815E+01         YZ= -0.65832120E-04         ZZ=  0.12457343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2697391E-02 Y= -0.8017281E-09 Z=  0.5796542E-02  Total=      0.0063934
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189105E+02         XY= -0.13486956E-01         XZ=  0.15797718E-01
                YY= -0.10161848E+02         YZ=  0.28982710E-01         ZZ= -0.12205460E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20501649E-01 Y= -0.81693662E-11 Z= -0.96889126E-05   Total=     0.02050165
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16332779E+01         XY=  0.19371251E+00         XZ=  0.16530514E+00
                YY=  0.12458851E+01         YZ= -0.91547023E-04         ZZ=  0.12456921E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6415486E-03 Y= -0.8006445E-09 Z=  0.5795290E-02  Total=      0.0058307
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168547E+02         XY= -0.32077448E-02         XZ=  0.24868643E-01
                YY= -0.10161848E+02         YZ=  0.28976449E-01         ZZ= -0.12205472E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27869866E-01 Y= -0.75189542E-11 Z= -0.10744596E-04   Total=     0.02786987
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17725296E+01         XY=  0.26333207E+00         XZ=  0.23808014E+00
                YY=  0.12458976E+01         YZ= -0.10152178E-03         ZZ=  0.12456861E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1668183E-02 Y= -0.8003555E-09 Z=  0.5794215E-02  Total=      0.0060296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145454E+02         XY=  0.83409150E-02         XZ=  0.35546682E-01
                YY= -0.10161845E+02         YZ=  0.28971072E-01         ZZ= -0.12205480E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24626853E-01 Y= -0.53736338E-11 Z= -0.87106930E-05   Total=     0.02462685
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17112456E+01         XY=  0.23269004E+00         XZ=  0.22021905E+00
                YY=  0.12459008E+01         YZ= -0.82304163E-04         ZZ=  0.12457229E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3350668E-02 Y= -0.8015836E-09 Z=  0.5793530E-02  Total=      0.0066927
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128633E+02         XY=  0.16753336E-01         XZ=  0.43758558E-01
                YY= -0.10161843E+02         YZ=  0.28967648E-01         ZZ= -0.12205485E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11963411E-01 Y= -0.28973572E-11 Z= -0.64252339E-05   Total=     0.01196341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14719275E+01         XY=  0.11303785E+00         XZ=  0.11813307E+00
                YY=  0.12458892E+01         YZ= -0.60709683E-04         ZZ=  0.12457500E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3760511E-02 Y= -0.8035341E-09 Z=  0.5792906E-02  Total=      0.0069065
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124534E+02         XY=  0.18802554E-01         XZ=  0.46354115E-01
                YY= -0.10161844E+02         YZ=  0.28964528E-01         ZZ= -0.12205493E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53261575E-02 Y= -0.12949690E-11 Z= -0.70935901E-05   Total=     0.00532616
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11451922E+01         XY= -0.50324895E-01         XZ= -0.29567937E-01
                YY=  0.12458778E+01         YZ= -0.67024721E-04         ZZ=  0.12457279E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2735626E-02 Y= -0.8043288E-09 Z=  0.5791922E-02  Total=      0.0064055
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134780E+02         XY=  0.13678130E-01         XZ=  0.42315218E-01
                YY= -0.10161846E+02         YZ=  0.28959606E-01         ZZ= -0.12205506E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20659044E-01 Y= -0.12361700E-11 Z= -0.98592120E-05   Total=     0.02065905
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85544917E+00         XY= -0.19519968E+00         XZ= -0.16665513E+00
                YY=  0.12458814E+01         YZ= -0.93156060E-04         ZZ=  0.12456849E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6612519E-03 Y= -0.8054124E-09 Z=  0.5790646E-02  Total=      0.0058283
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155524E+02         XY=  0.33062576E-02         XZ=  0.33155676E-01
                YY= -0.10161846E+02         YZ=  0.28953228E-01         ZZ= -0.12205519E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28170253E-01 Y= -0.25698281E-11 Z= -0.10959655E-04   Total=     0.02817026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71352073E+00         XY= -0.26617032E+00         XZ= -0.24069226E+00
                YY=  0.12458941E+01         YZ= -0.10355375E-03         ZZ=  0.12456784E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1674822E-02 Y= -0.8077241E-09 Z=  0.5789546E-02  Total=      0.0060269
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178889E+02         XY= -0.83741107E-02         XZ=  0.22353120E-01
                YY= -0.10161843E+02         YZ=  0.28947729E-01         ZZ= -0.12205527E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24955950E-01 Y= -0.44511539E-11 Z= -0.89083470E-05   Total=     0.02495595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77426247E+00         XY= -0.23579956E+00         XZ= -0.22311776E+00
                YY=  0.12458974E+01         YZ= -0.84171714E-04         ZZ=  0.12457156E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3381425E-02 Y= -0.8095301E-09 Z=  0.5788845E-02  Total=      0.0067041
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195959E+02         XY= -0.16907125E-01         XZ=  0.14026324E-01
                YY= -0.10161841E+02         YZ=  0.28944223E-01         ZZ= -0.12205532E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12195843E-01 Y= -0.58022256E-11 Z= -0.65656969E-05   Total=     0.01219585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10153796E+01         XY= -0.11523402E+00         XZ= -0.12027182E+00
                YY=  0.12458856E+01         YZ= -0.62036890E-04         ZZ=  0.12457435E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3803966E-02 Y= -0.8111194E-09 Z=  0.5788210E-02  Total=      0.0069263
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200184E+02         XY= -0.19019834E-01         XZ=  0.11363333E-01
                YY= -0.10161842E+02         YZ=  0.28941049E-01         ZZ= -0.12205540E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52791212E-02 Y= -0.58670981E-11 Z= -0.72146187E-05   Total=     0.00527913
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13455985E+01         XY=  0.49880466E-01         XZ=  0.28902625E-01
                YY=  0.12458740E+01         YZ= -0.68168313E-04         ZZ=  0.12457215E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2775502E-02 Y= -0.8121308E-09 Z=  0.5787211E-02  Total=      0.0064184
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189896E+02         XY= -0.13877514E-01         XZ=  0.15401394E-01
                YY= -0.10161843E+02         YZ=  0.28936053E-01         ZZ= -0.12205553E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20815649E-01 Y= -0.45822526E-11 Z= -0.10025067E-04   Total=     0.02081565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16392029E+01         XY=  0.19667938E+00         XZ=  0.16762739E+00
                YY=  0.12458776E+01         YZ= -0.94723195E-04         ZZ=  0.12456777E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6826087E-03 Y= -0.8104692E-09 Z=  0.5785912E-02  Total=      0.0058260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168968E+02         XY= -0.34130455E-02         XZ=  0.24624005E-01
                YY= -0.10161843E+02         YZ=  0.28929559E-01         ZZ= -0.12205566E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28471213E-01 Y= -0.25869703E-11 Z= -0.11173594E-04   Total=     0.02847122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17838852E+01         XY=  0.26901398E+00         XZ=  0.24289420E+00
                YY=  0.12458905E+01         YZ= -0.10557518E-03         ZZ=  0.12456706E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1679894E-02 Y= -0.8097468E-09 Z=  0.5784788E-02  Total=      0.0060238
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145347E+02         XY=  0.83994694E-02         XZ=  0.35529404E-01
                YY= -0.10161840E+02         YZ=  0.28923938E-01         ZZ= -0.12205575E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25286927E-01 Y= -0.87955001E-12 Z= -0.91087077E-05   Total=     0.02528693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17237112E+01         XY=  0.23892684E+00         XZ=  0.22569322E+00
                YY=  0.12458939E+01         YZ= -0.86064820E-04         ZZ=  0.12457082E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3410786E-02 Y= -0.8110472E-09 Z=  0.5784070E-02  Total=      0.0067148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128042E+02         XY=  0.17053928E-01         XZ=  0.43957739E-01
                YY= -0.10161838E+02         YZ=  0.28920347E-01         ZZ= -0.12205580E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12430915E-01 Y= -0.29884155E-12 Z= -0.67109136E-05   Total=     0.01243092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14807536E+01         XY=  0.11745513E+00         XZ=  0.12218198E+00
                YY=  0.12458820E+01         YZ= -0.63408945E-04         ZZ=  0.12457368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3846230E-02 Y= -0.8122752E-09 Z=  0.5783424E-02  Total=      0.0069456
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123687E+02         XY=  0.19231149E-01         XZ=  0.46676289E-01
                YY= -0.10161839E+02         YZ=  0.28917119E-01         ZZ= -0.12205588E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52295216E-02 Y= -0.10977989E-11 Z= -0.73402401E-05   Total=     0.00522953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11470094E+01         XY= -0.49411818E-01         XZ= -0.28489918E-01
                YY=  0.12458702E+01         YZ= -0.69355225E-04         ZZ=  0.12457149E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2814363E-02 Y= -0.8119863E-09 Z=  0.5782410E-02  Total=      0.0064309
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134003E+02         XY=  0.14071813E-01         XZ=  0.42619849E-01
                YY= -0.10161841E+02         YZ=  0.28912048E-01         ZZ= -0.12205601E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20970576E-01 Y= -0.28232058E-11 Z= -0.10194305E-04   Total=     0.02097058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84955316E+00         XY= -0.19814323E+00         XZ= -0.16896383E+00
                YY=  0.12458737E+01         YZ= -0.96322248E-04         ZZ=  0.12456704E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7030474E-03 Y= -0.8112639E-09 Z=  0.5781087E-02  Total=      0.0058237
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155116E+02         XY=  0.35152353E-02         XZ=  0.33308709E-01
                YY= -0.10161841E+02         YZ=  0.28905435E-01         ZZ= -0.12205615E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28771863E-01 Y= -0.45592593E-11 Z= -0.11389468E-04   Total=     0.02877186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70214356E+00         XY= -0.27185470E+00         XZ= -0.24551297E+00
                YY=  0.12458868E+01         YZ= -0.10761491E-03         ZZ=  0.12456627E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1685888E-02 Y= -0.8114084E-09 Z=  0.5779939E-02  Total=      0.0060208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179011E+02         XY= -0.84294408E-02         XZ=  0.22278144E-01
                YY= -0.10161838E+02         YZ=  0.28899691E-01         ZZ= -0.12205623E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25618924E-01 Y= -0.54077031E-11 Z= -0.93089487E-05   Total=     0.02561893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76172590E+00         XY= -0.24206375E+00         XZ= -0.22861711E+00
                YY=  0.12458904E+01         YZ= -0.87956860E-04         ZZ=  0.12457007E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3441155E-02 Y= -0.8116251E-09 Z=  0.5779204E-02  Total=      0.0067261
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196567E+02         XY= -0.17205776E-01         XZ=  0.13733739E-01
                YY= -0.10161836E+02         YZ=  0.28896016E-01         ZZ= -0.12205629E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12667796E-01 Y= -0.49611915E-11 Z= -0.68531248E-05   Total=     0.01266780
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10064524E+01         XY= -0.11969333E+00         XZ= -0.12435631E+00
                YY=  0.12458784E+01         YZ= -0.64752684E-04         ZZ=  0.12457302E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3889623E-02 Y= -0.8116973E-09 Z=  0.5778547E-02  Total=      0.0069657
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201051E+02         XY= -0.19448116E-01         XZ=  0.10946376E-01
                YY= -0.10161836E+02         YZ=  0.28892735E-01         ZZ= -0.12205637E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51781733E-02 Y= -0.35282950E-11 Z= -0.74604608E-05   Total=     0.00517818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13436817E+01         XY=  0.48926647E-01         XZ=  0.27788635E-01
                YY=  0.12458663E+01         YZ= -0.70491166E-04         ZZ=  0.12457084E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2854445E-02 Y= -0.8114806E-09 Z=  0.5777519E-02  Total=      0.0064442
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190696E+02         XY= -0.14272229E-01         XZ=  0.15000617E-01
                YY= -0.10161838E+02         YZ=  0.28887591E-01         ZZ= -0.12205650E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21124659E-01 Y= -0.19916197E-11 Z= -0.10358272E-04   Total=     0.02112466
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16450332E+01         XY=  0.19959910E+00         XZ=  0.16990935E+00
                YY=  0.12458698E+01         YZ= -0.97871506E-04         ZZ=  0.12456631E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7247180E-03 Y= -0.8106137E-09 Z=  0.5776173E-02  Total=      0.0058215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169399E+02         XY= -0.36235921E-02         XZ=  0.24373810E-01
                YY= -0.10161838E+02         YZ=  0.28880863E-01         ZZ= -0.12205664E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29073098E-01 Y= -0.13660646E-11 Z= -0.11603177E-04   Total=     0.02907310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17952506E+01         XY=  0.27470096E+00         XZ=  0.24770544E+00
                YY=  0.12458831E+01         YZ= -0.10963414E-03         ZZ=  0.12456548E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1690747E-02 Y= -0.8099635E-09 Z=  0.5774999E-02  Total=      0.0060174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145250E+02         XY=  0.84537328E-02         XZ=  0.35506926E-01
                YY= -0.10161835E+02         YZ=  0.28874995E-01         ZZ= -0.12205673E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25952950E-01 Y= -0.22746620E-11 Z= -0.95111614E-05   Total=     0.02595295
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17362889E+01         XY=  0.24521984E+00         XZ=  0.23120396E+00
                YY=  0.12458868E+01         YZ= -0.89867470E-04         ZZ=  0.12456931E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3470581E-02 Y= -0.8111194E-09 Z=  0.5774247E-02  Total=      0.0067370
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127455E+02         XY=  0.17352905E-01         XZ=  0.44153445E-01
                YY= -0.10161833E+02         YZ=  0.28871235E-01         ZZ= -0.12205678E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12907645E-01 Y= -0.46047067E-11 Z= -0.69999780E-05   Total=     0.01290765
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14897537E+01         XY=  0.12195957E+00         XZ=  0.12629416E+00
                YY=  0.12458746E+01         YZ= -0.66140244E-04         ZZ=  0.12457234E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3932312E-02 Y= -0.8124920E-09 Z=  0.5773580E-02  Total=      0.0069855
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122837E+02         XY=  0.19661559E-01         XZ=  0.46997479E-01
                YY= -0.10161834E+02         YZ=  0.28867899E-01         ZZ= -0.12205686E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51237519E-02 Y= -0.75226353E-11 Z= -0.75857467E-05   Total=     0.00512376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11489988E+01         XY= -0.48412439E-01         XZ= -0.27344636E-01
                YY=  0.12458623E+01         YZ= -0.71674980E-04         ZZ=  0.12457017E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2894049E-02 Y= -0.8119863E-09 Z=  0.5772537E-02  Total=      0.0064574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133217E+02         XY=  0.14470241E-01         XZ=  0.42925855E-01
                YY= -0.10161836E+02         YZ=  0.28862681E-01         ZZ= -0.12205700E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21276417E-01 Y= -0.98506062E-11 Z= -0.10526438E-04   Total=     0.02127642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84376438E+00         XY= -0.20103300E+00         XZ= -0.17122570E+00
                YY=  0.12458657E+01         YZ= -0.99460504E-04         ZZ=  0.12456557E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7460625E-03 Y= -0.8124197E-09 Z=  0.5771167E-02  Total=      0.0058192
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154697E+02         XY=  0.37303107E-02         XZ=  0.33464483E-01
                YY= -0.10161835E+02         YZ=  0.28855835E-01         ZZ= -0.12205714E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29373309E-01 Y= -0.10629408E-10 Z= -0.11819757E-04   Total=     0.02937331
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69076917E+00         XY= -0.27753754E+00         XZ= -0.25032435E+00
                YY=  0.12458793E+01         YZ= -0.11168060E-03         ZZ=  0.12456467E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1695878E-02 Y= -0.8142980E-09 Z=  0.5769969E-02  Total=      0.0060140
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179121E+02         XY= -0.84793917E-02         XZ=  0.22205784E-01
                YY= -0.10161833E+02         YZ=  0.28849843E-01         ZZ= -0.12205723E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26287306E-01 Y= -0.95932463E-11 Z= -0.97141794E-05   Total=     0.02628731
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74908686E+00         XY= -0.24837904E+00         XZ= -0.23414791E+00
                YY=  0.12458832E+01         YZ= -0.91785773E-04         ZZ=  0.12456854E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3500314E-02 Y= -0.8168987E-09 Z=  0.5769200E-02  Total=      0.0067480
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197170E+02         XY= -0.17501572E-01         XZ=  0.13442203E-01
                YY= -0.10161830E+02         YZ=  0.28845996E-01         ZZ= -0.12205729E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13148711E-01 Y= -0.73217591E-11 Z= -0.71446347E-05   Total=     0.01314871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99735552E+00         XY= -0.12423731E+00         XZ= -0.12850135E+00
                YY=  0.12458708E+01         YZ= -0.67507076E-04         ZZ=  0.12457165E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3975387E-02 Y= -0.8188492E-09 Z=  0.5768522E-02  Total=      0.0070057
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201920E+02         XY= -0.19876936E-01         XZ=  0.10528030E-01
                YY= -0.10161831E+02         YZ=  0.28842607E-01         ZZ= -0.12205737E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50680299E-02 Y= -0.49866178E-11 Z= -0.77062064E-05   Total=     0.00506804
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13415909E+01         XY=  0.47885942E-01         XZ=  0.26607267E-01
                YY=  0.12458582E+01         YZ= -0.72813139E-04         ZZ=  0.12456950E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2934100E-02 Y= -0.8192826E-09 Z=  0.5767464E-02  Total=      0.0064709
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191504E+02         XY= -0.14670500E-01         XZ=  0.14596031E-01
                YY= -0.10161833E+02         YZ=  0.28837318E-01         ZZ= -0.12205751E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21427624E-01 Y= -0.38023305E-11 Z= -0.10689587E-04   Total=     0.02142763
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16507491E+01         XY=  0.20246171E+00         XZ=  0.17214161E+00
                YY=  0.12458616E+01         YZ= -0.10100199E-03         ZZ=  0.12456482E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7678473E-03 Y= -0.8194993E-09 Z=  0.5766072E-02  Total=      0.0058170
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169842E+02         XY= -0.38392382E-02         XZ=  0.24118267E-01
                YY= -0.10161833E+02         YZ=  0.28830357E-01         ZZ= -0.12205765E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29674269E-01 Y= -0.44408476E-11 Z= -0.12034104E-04   Total=     0.02967427
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18066022E+01         XY=  0.28038121E+00         XZ=  0.25250233E+00
                YY=  0.12458754E+01         YZ= -0.11370584E-03         ZZ=  0.12456386E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1700674E-02 Y= -0.8200773E-09 Z=  0.5764848E-02  Total=      0.0060105
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145161E+02         XY=  0.85033694E-02         XZ=  0.35478977E-01
                YY= -0.10161830E+02         YZ=  0.28824239E-01         ZZ= -0.12205774E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26623759E-01 Y= -0.66893107E-11 Z= -0.99188312E-05   Total=     0.02662376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17489567E+01         XY=  0.25155807E+00         XZ=  0.23674001E+00
                YY=  0.12458794E+01         YZ= -0.93719428E-04         ZZ=  0.12456776E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3529905E-02 Y= -0.8212331E-09 Z=  0.5764062E-02  Total=      0.0067590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126873E+02         XY=  0.17649522E-01         XZ=  0.44344971E-01
                YY= -0.10161828E+02         YZ=  0.28820306E-01         ZZ= -0.12205780E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13392754E-01 Y= -0.95193919E-11 Z= -0.72933680E-05   Total=     0.01339276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14989120E+01         XY=  0.12654319E+00         XZ=  0.13046073E+00
                YY=  0.12458670E+01         YZ= -0.68912420E-04         ZZ=  0.12457095E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4018556E-02 Y= -0.8220278E-09 Z=  0.5763373E-02  Total=      0.0070260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121986E+02         XY=  0.20092777E-01         XZ=  0.47316668E-01
                YY= -0.10161828E+02         YZ=  0.28816862E-01         ZZ= -0.12205789E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50092623E-02 Y= -0.11546121E-10 Z= -0.78309928E-05   Total=     0.00500927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11511528E+01         XY= -0.47330669E-01         XZ= -0.26137346E-01
                YY=  0.12458541E+01         YZ= -0.73992255E-04         ZZ=  0.12456881E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2974463E-02 Y= -0.8213776E-09 Z=  0.5762300E-02  Total=      0.0064847
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132424E+02         XY=  0.14872313E-01         XZ=  0.43232064E-01
                YY= -0.10161830E+02         YZ=  0.28811500E-01         ZZ= -0.12205802E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21576569E-01 Y= -0.11666784E-10 Z= -0.10856172E-04   Total=     0.02157657
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83808281E+00         XY= -0.20386903E+00         XZ= -0.17344217E+00
                YY=  0.12458575E+01         YZ= -0.10257606E-03         ZZ=  0.12456407E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7900880E-03 Y= -0.8221000E-09 Z=  0.5760885E-02  Total=      0.0058148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154268E+02         XY=  0.39504383E-02         XZ=  0.33621828E-01
                YY= -0.10161830E+02         YZ=  0.28804422E-01         ZZ= -0.12205817E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29974311E-01 Y= -0.95840554E-11 Z= -0.12250788E-04   Total=     0.02997431
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67940289E+00         XY= -0.28321619E+00         XZ= -0.25512471E+00
                YY=  0.12458715E+01         YZ= -0.11575326E-03         ZZ=  0.12456304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1704973E-02 Y= -0.8241950E-09 Z=  0.5759636E-02  Total=      0.0060067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179224E+02         XY= -0.85248664E-02         XZ=  0.22134986E-01
                YY= -0.10161827E+02         YZ=  0.28798178E-01         ZZ= -0.12205827E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26960700E-01 Y= -0.59641151E-11 Z= -0.10124173E-04   Total=     0.02696070
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73635281E+00         XY= -0.25474170E+00         XZ= -0.23970662E+00
                YY=  0.12458756E+01         YZ= -0.95659619E-04         ZZ=  0.12456698E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3559049E-02 Y= -0.8255676E-09 Z=  0.5758832E-02  Total=      0.0067699
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197769E+02         XY= -0.17795245E-01         XZ=  0.13150837E-01
                YY= -0.10161825E+02         YZ=  0.28794157E-01         ZZ= -0.12205833E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13638223E-01 Y= -0.21531928E-11 Z= -0.74401535E-05   Total=     0.01363823
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98809594E+00         XY= -0.12886253E+00         XZ= -0.13270279E+00
                YY=  0.12458630E+01         YZ= -0.70299281E-04         ZZ=  0.12457025E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4061376E-02 Y= -0.8265789E-09 Z=  0.5758132E-02  Total=      0.0070463
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202791E+02         XY= -0.20306881E-01         XZ=  0.10107610E-01
                YY= -0.10161826E+02         YZ=  0.28790660E-01         ZZ= -0.12205841E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49489582E-02 Y=  0.42138121E-12 Z= -0.79512692E-05   Total=     0.00494896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13393310E+01         XY=  0.46760878E-01         XZ=  0.25362516E-01
                YY=  0.12458499E+01         YZ= -0.75128603E-04         ZZ=  0.12456813E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3014560E-02 Y= -0.8257120E-09 Z=  0.5757046E-02  Total=      0.0064985
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192320E+02         XY= -0.15072803E-01         XZ=  0.14187132E-01
                YY= -0.10161828E+02         YZ=  0.28785227E-01         ZZ= -0.12205855E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21724737E-01 Y=  0.89157785E-12 Z= -0.11017830E-04   Total=     0.02172474
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16563540E+01         XY=  0.20526902E+00         XZ=  0.17432783E+00
                YY=  0.12458532E+01         YZ= -0.10410340E-03         ZZ=  0.12456331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8120725E-03 Y= -0.8236171E-09 Z=  0.5755607E-02  Total=      0.0058126
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170296E+02         XY= -0.40603644E-02         XZ=  0.23857042E-01
                YY= -0.10161827E+02         YZ=  0.28778035E-01         ZZ= -0.12205870E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30274927E-01 Y= -0.66371558E-12 Z= -0.12465056E-04   Total=     0.03027493
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18179439E+01         XY=  0.28605660E+00         XZ=  0.25728846E+00
                YY=  0.12458674E+01         YZ= -0.11777772E-03         ZZ=  0.12456222E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1709621E-02 Y= -0.8233281E-09 Z=  0.5754333E-02  Total=      0.0060029
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145083E+02         XY=  0.85481026E-02         XZ=  0.35445385E-01
                YY= -0.10161825E+02         YZ=  0.28771665E-01         ZZ= -0.12205880E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27299648E-01 Y= -0.32618976E-11 Z= -0.10330905E-04   Total=     0.02729965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17617203E+01         XY=  0.25794429E+00         XZ=  0.24230526E+00
                YY=  0.12458718E+01         YZ= -0.97612930E-04         ZZ=  0.12456618E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3588729E-02 Y= -0.8234003E-09 Z=  0.5753511E-02  Total=      0.0067810
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126297E+02         XY=  0.17943643E-01         XZ=  0.44532316E-01
                YY= -0.10161822E+02         YZ=  0.28767555E-01         ZZ= -0.12205886E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13886669E-01 Y= -0.54686036E-11 Z= -0.75909668E-05   Total=     0.01388667
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15082363E+01         XY=  0.13121001E+00         XZ=  0.13468600E+00
                YY=  0.12458590E+01         YZ= -0.71724288E-04         ZZ=  0.12456953E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4104969E-02 Y= -0.8236893E-09 Z=  0.5752801E-02  Total=      0.0070672
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121134E+02         XY=  0.20524843E-01         XZ=  0.47634027E-01
                YY= -0.10161823E+02         YZ=  0.28764003E-01         ZZ= -0.12205894E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48855412E-02 Y= -0.60517530E-11 Z= -0.80761276E-05   Total=     0.00488555
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11534810E+01         XY= -0.46161674E-01         XZ= -0.24863712E-01
                YY=  0.12458456E+01         YZ= -0.76308398E-04         ZZ=  0.12456743E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3055652E-02 Y= -0.8234003E-09 Z=  0.5751700E-02  Total=      0.0065130
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131624E+02         XY=  0.15278260E-01         XZ=  0.43538805E-01
                YY= -0.10161825E+02         YZ=  0.28758499E-01         ZZ= -0.12205909E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21870556E-01 Y= -0.45375740E-11 Z= -0.11183450E-04   Total=     0.02187056
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83251745E+00         XY= -0.20664680E+00         XZ= -0.17560975E+00
                YY=  0.12458489E+01         YZ= -0.10566833E-03         ZZ=  0.12456254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8351990E-03 Y= -0.8233281E-09 Z=  0.5750238E-02  Total=      0.0058106
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153829E+02         XY=  0.41759932E-02         XZ=  0.33781173E-01
                YY= -0.10161825E+02         YZ=  0.28751190E-01         ZZ= -0.12205924E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30574583E-01 Y= -0.14189639E-11 Z= -0.12682363E-04   Total=     0.03057459
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66805010E+00         XY= -0.28888794E+00         XZ= -0.25991253E+00
                YY=  0.12458633E+01         YZ= -0.11983098E-03         ZZ=  0.12456138E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1713088E-02 Y= -0.8236893E-09 Z=  0.5748939E-02  Total=      0.0059987
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179316E+02         XY= -0.85654395E-02         XZ=  0.22066185E-01
                YY= -0.10161822E+02         YZ=  0.28744693E-01         ZZ= -0.12205934E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27639147E-01 Y=  0.20758542E-11 Z= -0.10539038E-04   Total=     0.02763915
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72352301E+00         XY= -0.26115209E+00         XZ= -0.24529458E+00
                YY=  0.12458678E+01         YZ= -0.99579461E-04         ZZ=  0.12456537E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3617291E-02 Y= -0.8247007E-09 Z=  0.5748099E-02  Total=      0.0067916
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198363E+02         XY= -0.18086456E-01         XZ=  0.12859964E-01
                YY= -0.10161819E+02         YZ=  0.28740494E-01         ZZ= -0.12205940E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14136751E-01 Y=  0.45412230E-11 Z= -0.77402366E-05   Total=     0.01413675
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97866571E+00         XY= -0.13357294E+00         XZ= -0.13696507E+00
                YY=  0.12458549E+01         YZ= -0.73134600E-04         ZZ=  0.12456881E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4147566E-02 Y= -0.8257843E-09 Z=  0.5747378E-02  Total=      0.0070876
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203665E+02         XY= -0.20737832E-01         XZ=  0.96852071E-02
                YY= -0.10161820E+02         YZ=  0.28736888E-01         ZZ= -0.12205949E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48202184E-02 Y=  0.50204429E-11 Z= -0.81961628E-05   Total=     0.00482023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13368882E+01         XY=  0.45544463E-01         XZ=  0.24047336E-01
                YY=  0.12458413E+01         YZ= -0.77442474E-04         ZZ=  0.12456674E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3095867E-02 Y= -0.8238338E-09 Z=  0.5746263E-02  Total=      0.0065272
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193145E+02         XY= -0.15479338E-01         XZ=  0.13773696E-01
                YY= -0.10161822E+02         YZ=  0.28731315E-01         ZZ= -0.12205963E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22015094E-01 Y=  0.34170727E-11 Z= -0.11342844E-04   Total=     0.02201510
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16618310E+01         XY=  0.20801249E+00         XZ=  0.17645969E+00
                YY=  0.12458445E+01         YZ= -0.10717431E-03         ZZ=  0.12456177E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8575044E-03 Y= -0.8210886E-09 Z=  0.5744779E-02  Total=      0.0058084
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170762E+02         XY= -0.42875240E-02         XZ=  0.23589571E-01
                YY= -0.10161822E+02         YZ=  0.28723893E-01         ZZ= -0.12205978E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30874222E-01 Y=  0.51145445E-12 Z= -0.12895051E-04   Total=     0.03087423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18292595E+01         XY=  0.29171912E+00         XZ=  0.26205601E+00
                YY=  0.12458591E+01         YZ= -0.12184057E-03         ZZ=  0.12456055E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1717417E-02 Y= -0.8198605E-09 Z=  0.5743454E-02  Total=      0.0059947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145017E+02         XY=  0.85870815E-02         XZ=  0.35405296E-01
                YY= -0.10161819E+02         YZ=  0.28717270E-01         ZZ= -0.12205989E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27980037E-01 Y= -0.24137311E-11 Z= -0.10745849E-04   Total=     0.02798004
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17745686E+01         XY=  0.26437303E+00         XZ=  0.24789419E+00
                YY=  0.12458638E+01         YZ= -0.10153358E-03         ZZ=  0.12456456E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3646850E-02 Y= -0.8215943E-09 Z=  0.5742597E-02  Total=      0.0068027
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125728E+02         XY=  0.18234247E-01         XZ=  0.44714448E-01
                YY= -0.10161816E+02         YZ=  0.28712982E-01         ZZ= -0.12205995E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14389227E-01 Y= -0.41564346E-11 Z= -0.78908133E-05   Total=     0.01438923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15177237E+01         XY=  0.13595849E+00         XZ=  0.13896804E+00
                YY=  0.12458508E+01         YZ= -0.74557415E-04         ZZ=  0.12456808E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4191348E-02 Y= -0.8229669E-09 Z=  0.5741865E-02  Total=      0.0071089
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120282E+02         XY=  0.20956738E-01         XZ=  0.47948503E-01
                YY= -0.10161817E+02         YZ=  0.28709321E-01         ZZ= -0.12206004E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47522918E-02 Y= -0.41175872E-11 Z= -0.83185138E-05   Total=     0.00475230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11559889E+01         XY= -0.44902650E-01         XZ= -0.23521595E-01
                YY=  0.12458368E+01         YZ= -0.78598599E-04         ZZ=  0.12456603E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3137446E-02 Y= -0.8227502E-09 Z=  0.5740736E-02  Total=      0.0065421
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130818E+02         XY=  0.15687226E-01         XZ=  0.43845165E-01
                YY= -0.10161819E+02         YZ=  0.28703679E-01         ZZ= -0.12206018E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22157699E-01 Y= -0.25307328E-11 Z= -0.11504800E-04   Total=     0.02215770
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82708106E+00         XY= -0.20935992E+00         XZ= -0.17772271E+00
                YY=  0.12458400E+01         YZ= -0.10870463E-03         ZZ=  0.12456099E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8812839E-03 Y= -0.8226779E-09 Z=  0.5739229E-02  Total=      0.0058065
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153380E+02         XY=  0.44064177E-02         XZ=  0.33941878E-01
                YY= -0.10161819E+02         YZ=  0.28696142E-01         ZZ= -0.12206034E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31173234E-01 Y= -0.30725783E-12 Z= -0.13110565E-04   Total=     0.03117324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65672760E+00         XY= -0.29454438E+00         XZ= -0.26467972E+00
                YY=  0.12458548E+01         YZ= -0.12387689E-03         ZZ=  0.12455969E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1720263E-02 Y= -0.8235448E-09 Z=  0.5737879E-02  Total=      0.0059902
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179400E+02         XY= -0.86013167E-02         XZ=  0.21999090E-01
                YY= -0.10161816E+02         YZ=  0.28689391E-01         ZZ= -0.12206045E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28321747E-01 Y=  0.14136428E-11 Z= -0.10955081E-04   Total=     0.02832175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71061439E+00         XY= -0.26760173E+00         XZ= -0.25090305E+00
                YY=  0.12458596E+01         YZ= -0.10351050E-03         ZZ=  0.12456374E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3675015E-02 Y= -0.8240505E-09 Z=  0.5737003E-02  Total=      0.0068131
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198952E+02         XY= -0.18375079E-01         XZ=  0.12569645E-01
                YY= -0.10161814E+02         YZ=  0.28685012E-01         ZZ= -0.12206051E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14643573E-01 Y=  0.17921739E-11 Z= -0.80416904E-05   Total=     0.01464358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96907842E+00         XY= -0.13836172E+00         XZ= -0.14128052E+00
                YY=  0.12458465E+01         YZ= -0.75982948E-04         ZZ=  0.12456734E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4233883E-02 Y= -0.8241227E-09 Z=  0.5736260E-02  Total=      0.0071295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204541E+02         XY= -0.21169418E-01         XZ=  0.92611780E-02
                YY= -0.10161814E+02         YZ=  0.28681298E-01         ZZ= -0.12206060E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46822378E-02 Y=  0.64660310E-12 Z= -0.84379351E-05   Total=     0.00468225
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13342705E+01         XY=  0.44240736E-01         XZ=  0.22667128E-01
                YY=  0.12458323E+01         YZ= -0.79726927E-04         ZZ=  0.12456531E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3177921E-02 Y= -0.8226779E-09 Z=  0.5735118E-02  Total=      0.0065567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193978E+02         XY= -0.15889606E-01         XZ=  0.13356271E-01
                YY= -0.10161816E+02         YZ=  0.28675588E-01         ZZ= -0.12206075E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22298803E-01 Y= -0.15104084E-11 Z= -0.11661701E-04   Total=     0.02229881
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16671820E+01         XY=  0.21069315E+00         XZ=  0.17853975E+00
                YY=  0.12458354E+01         YZ= -0.11018712E-03         ZZ=  0.12456021E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9040410E-03 Y= -0.8202940E-09 Z=  0.5733588E-02  Total=      0.0058044
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171239E+02         XY= -0.45202069E-02         XZ=  0.23316472E-01
                YY= -0.10161816E+02         YZ=  0.28667940E-01         ZZ= -0.12206090E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31472006E-01 Y= -0.37560258E-11 Z= -0.13321529E-04   Total=     0.03147201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18405461E+01         XY=  0.29736736E+00         XZ=  0.26680484E+00
                YY=  0.12458505E+01         YZ= -0.12587024E-03         ZZ=  0.12455884E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1724148E-02 Y= -0.8186324E-09 Z=  0.5732213E-02  Total=      0.0059859
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144962E+02         XY=  0.86207374E-02         XZ=  0.35359290E-01
                YY= -0.10161813E+02         YZ=  0.28661063E-01         ZZ= -0.12206101E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28664627E-01 Y= -0.52092012E-11 Z= -0.11162093E-04   Total=     0.02866463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17874960E+01         XY=  0.27084148E+00         XZ=  0.25350461E+00
                YY=  0.12458554E+01         YZ= -0.10546654E-03         ZZ=  0.12456291E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3704329E-02 Y= -0.8190659E-09 Z=  0.5731319E-02  Total=      0.0068242
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125165E+02         XY=  0.18521641E-01         XZ=  0.44891831E-01
                YY= -0.10161811E+02         YZ=  0.28656594E-01         ZZ= -0.12206108E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14900096E-01 Y= -0.54281278E-11 Z= -0.81924890E-05   Total=     0.01490010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15273679E+01         XY=  0.14078551E+00         XZ=  0.14330353E+00
                YY=  0.12458422E+01         YZ= -0.77407849E-04         ZZ=  0.12456659E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4277728E-02 Y= -0.8193548E-09 Z=  0.5730566E-02  Total=      0.0071511
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119431E+02         XY=  0.21388638E-01         XZ=  0.48260408E-01
                YY= -0.10161811E+02         YZ=  0.28652826E-01         ZZ= -0.12206117E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46098006E-02 Y= -0.45707196E-11 Z= -0.85583431E-05   Total=     0.00460981
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11586711E+01         XY= -0.43556303E-01         XZ= -0.22114604E-01
                YY=  0.12458277E+01         YZ= -0.80864662E-04         ZZ=  0.12456459E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3219857E-02 Y= -0.8171876E-09 Z=  0.5729410E-02  Total=      0.0065722
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130007E+02         XY=  0.16099285E-01         XZ=  0.44151298E-01
                YY= -0.10161813E+02         YZ=  0.28647049E-01         ZZ= -0.12206132E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22438218E-01 Y= -0.32592342E-11 Z= -0.11820314E-04   Total=     0.02243822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82176953E+00         XY= -0.21201043E+00         XZ= -0.17978444E+00
                YY=  0.12458308E+01         YZ= -0.11168581E-03         ZZ=  0.12455941E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9283407E-03 Y= -0.8163930E-09 Z=  0.5727858E-02  Total=      0.0058026
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152922E+02         XY=  0.46417017E-02         XZ=  0.34103955E-01
                YY= -0.10161813E+02         YZ=  0.28639288E-01         ZZ= -0.12206148E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31770447E-01 Y= -0.22366019E-11 Z= -0.13535137E-04   Total=     0.03177045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64543195E+00         XY= -0.30018722E+00         XZ= -0.26942937E+00
                YY=  0.12458460E+01         YZ= -0.12788853E-03         ZZ=  0.12455798E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1726516E-02 Y= -0.8180545E-09 Z=  0.5726457E-02  Total=      0.0059811
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179475E+02         XY= -0.86325796E-02         XZ=  0.21933589E-01
                YY= -0.10161810E+02         YZ=  0.28632283E-01         ZZ= -0.12206159E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29008707E-01 Y= -0.19959271E-11 Z= -0.11371905E-04   Total=     0.02900871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69762307E+00         XY= -0.27409255E+00         XZ= -0.25653495E+00
                YY=  0.12458511E+01         YZ= -0.10744895E-03         ZZ=  0.12456206E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3732255E-02 Y= -0.8207274E-09 Z=  0.5725545E-02  Total=      0.0068346
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199537E+02         XY= -0.18661276E-01         XZ=  0.12279658E-01
                YY= -0.10161808E+02         YZ=  0.28627722E-01         ZZ= -0.12206166E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15158968E-01 Y= -0.25693285E-11 Z= -0.83441283E-05   Total=     0.01515897
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95932882E+00         XY= -0.14323149E+00         XZ= -0.14565210E+00
                YY=  0.12458378E+01         YZ= -0.78840610E-04         ZZ=  0.12456583E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4320381E-02 Y= -0.8223890E-09 Z=  0.5724780E-02  Total=      0.0071721
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205418E+02         XY= -0.21601906E-01         XZ=  0.88351900E-02
                YY= -0.10161808E+02         YZ=  0.28623900E-01         ZZ= -0.12206175E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45346599E-02 Y= -0.35712484E-11 Z= -0.86760255E-05   Total=     0.00453467
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13314710E+01         XY=  0.42846326E-01         XZ=  0.21218862E-01
                YY=  0.12458230E+01         YZ= -0.81976592E-04         ZZ=  0.12456386E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3260800E-02 Y= -0.8213776E-09 Z=  0.5723612E-02  Total=      0.0065873
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194819E+02         XY= -0.16304003E-01         XZ=  0.12934420E-01
                YY= -0.10161810E+02         YZ=  0.28618059E-01         ZZ= -0.12206190E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22575485E-01 Y= -0.44542534E-11 Z= -0.11973451E-04   Total=     0.02257549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16723999E+01         XY=  0.21330742E+00         XZ=  0.18056523E+00
                YY=  0.12458260E+01         YZ= -0.11313276E-03         ZZ=  0.12455862E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9517855E-03 Y= -0.8194993E-09 Z=  0.5722038E-02  Total=      0.0058007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171729E+02         XY= -0.47589294E-02         XZ=  0.23037225E-01
                YY= -0.10161810E+02         YZ=  0.28610188E-01         ZZ= -0.12206206E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32067978E-01 Y= -0.48309456E-11 Z= -0.13743267E-04   Total=     0.03206798
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18517982E+01         XY=  0.30299848E+00         XZ=  0.27153310E+00
                YY=  0.12458414E+01         YZ= -0.12985510E-03         ZZ=  0.12455711E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1729696E-02 Y= -0.8194271E-09 Z=  0.5720612E-02  Total=      0.0059764
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144919E+02         XY=  0.86484794E-02         XZ=  0.35306809E-01
                YY= -0.10161807E+02         YZ=  0.28603057E-01         ZZ= -0.12206218E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29353321E-01 Y= -0.46851145E-11 Z= -0.11578475E-04   Total=     0.02935332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18005006E+01         XY=  0.27734869E+00         XZ=  0.25913637E+00
                YY=  0.12458468E+01         YZ= -0.10940077E-03         ZZ=  0.12456122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3761050E-02 Y= -0.8210164E-09 Z=  0.5719681E-02  Total=      0.0068455
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124611E+02         XY=  0.18805247E-01         XZ=  0.45063944E-01
                YY= -0.10161804E+02         YZ=  0.28598405E-01         ZZ= -0.12206225E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15419467E-01 Y= -0.43600811E-11 Z= -0.84949710E-05   Total=     0.01541947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15371724E+01         XY=  0.14569285E+00         XZ=  0.14769461E+00
                YY=  0.12458333E+01         YZ= -0.80265884E-04         ZZ=  0.12456507E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4364018E-02 Y= -0.8207997E-09 Z=  0.5718907E-02  Total=      0.0071938
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118581E+02         XY=  0.21820089E-01         XZ=  0.48569344E-01
                YY= -0.10161805E+02         YZ=  0.28594531E-01         ZZ= -0.12206233E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44575724E-02 Y= -0.43379261E-11 Z= -0.87944430E-05   Total=     0.00445758
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11615370E+01         XY= -0.42117955E-01         XZ= -0.20638239E-01
                YY=  0.12458183E+01         YZ= -0.83095485E-04         ZZ=  0.12456313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3302842E-02 Y= -0.8187047E-09 Z=  0.5717725E-02  Total=      0.0066031
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129189E+02         XY=  0.16514208E-01         XZ=  0.44457015E-01
                YY= -0.10161807E+02         YZ=  0.28588623E-01         ZZ= -0.12206249E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22711388E-01 Y= -0.49360844E-11 Z= -0.12128469E-04   Total=     0.02271139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81659654E+00         XY= -0.21459152E+00         XZ= -0.18178864E+00
                YY=  0.12458212E+01         YZ= -0.11459747E-03         ZZ=  0.12455782E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9763818E-03 Y= -0.8175488E-09 Z=  0.5716129E-02  Total=      0.0057989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152454E+02         XY=  0.48819070E-02         XZ=  0.34267480E-01
                YY= -0.10161807E+02         YZ=  0.28580641E-01         ZZ= -0.12206265E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32365424E-01 Y= -0.60943467E-11 Z= -0.13954532E-04   Total=     0.03236543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63417821E+00         XY= -0.30580894E+00         XZ= -0.27415458E+00
                YY=  0.12458368E+01         YZ= -0.13185128E-03         ZZ=  0.12455624E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1731775E-02 Y= -0.8177655E-09 Z=  0.5714677E-02  Total=      0.0059713
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179540E+02         XY= -0.86588765E-02         XZ=  0.21870024E-01
                YY= -0.10161804E+02         YZ=  0.28573383E-01         ZZ= -0.12206277E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29699349E-01 Y= -0.73777536E-11 Z= -0.11788544E-04   Total=     0.02969935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68456186E+00         XY= -0.28061818E+00         XZ= -0.26218433E+00
                YY=  0.12458423E+01         YZ= -0.11138567E-03         ZZ=  0.12456036E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3788895E-02 Y= -0.8184157E-09 Z=  0.5713728E-02  Total=      0.0068558
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200116E+02         XY= -0.18944479E-01         XZ=  0.11990553E-01
                YY= -0.10161801E+02         YZ=  0.28568638E-01         ZZ= -0.12206284E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15682550E-01 Y= -0.82032151E-11 Z= -0.86473552E-05   Total=     0.01568255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94942424E+00         XY= -0.14817862E+00         XZ= -0.15007616E+00
                YY=  0.12458288E+01         YZ= -0.81705740E-04         ZZ=  0.12456430E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4406927E-02 Y= -0.8188492E-09 Z=  0.5712942E-02  Total=      0.0072152
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206297E+02         XY= -0.22034635E-01         XZ=  0.84078977E-02
                YY= -0.10161802E+02         YZ=  0.28564710E-01         ZZ= -0.12206293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43774921E-02 Y= -0.81746891E-11 Z= -0.89104980E-05   Total=     0.00437750
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13284901E+01         XY=  0.41361306E-01         XZ=  0.19703042E-01
                YY=  0.12458135E+01         YZ= -0.84192079E-04         ZZ=  0.12456239E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3344382E-02 Y= -0.8184880E-09 Z=  0.5711749E-02  Total=      0.0066188
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195668E+02         XY= -0.16721914E-01         XZ=  0.12508775E-01
                YY= -0.10161804E+02         YZ=  0.28558741E-01         ZZ= -0.12206308E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22844791E-01 Y= -0.73423205E-11 Z= -0.12277725E-04   Total=     0.02284479
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16774781E+01         XY=  0.21585199E+00         XZ=  0.18253356E+00
                YY=  0.12458163E+01         YZ= -0.11600776E-03         ZZ=  0.12455702E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1000649E-02 Y= -0.8179100E-09 Z=  0.5710131E-02  Total=      0.0057971
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172231E+02         XY= -0.50032456E-02         XZ=  0.22752329E-01
                YY= -0.10161804E+02         YZ=  0.28550651E-01         ZZ= -0.12206325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32661564E-01 Y= -0.62326429E-11 Z= -0.14159300E-04   Total=     0.03266157
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18630050E+01         XY=  0.30860706E+00         XZ=  0.27623602E+00
                YY=  0.12458321E+01         YZ= -0.13378605E-03         ZZ=  0.12455537E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1734106E-02 Y= -0.8179823E-09 Z=  0.5708654E-02  Total=      0.0059662
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144888E+02         XY=  0.86705275E-02         XZ=  0.35248151E-01
                YY= -0.10161801E+02         YZ=  0.28543268E-01         ZZ= -0.12206338E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30045510E-01 Y= -0.56128105E-11 Z= -0.11993822E-04   Total=     0.03004551
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18135710E+01         XY=  0.28388892E+00         XZ=  0.26478404E+00
                YY=  0.12458378E+01         YZ= -0.11332525E-03         ZZ=  0.12455951E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3817015E-02 Y= -0.8190659E-09 Z=  0.5707687E-02  Total=      0.0068664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124064E+02         XY=  0.19085074E-01         XZ=  0.45230876E-01
                YY= -0.10161798E+02         YZ=  0.28538433E-01         ZZ= -0.12206345E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15946891E-01 Y= -0.60907974E-11 Z= -0.87972349E-05   Total=     0.01594689
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15471288E+01         XY=  0.15067629E+00         XZ=  0.15213676E+00
                YY=  0.12458242E+01         YZ= -0.83121881E-04         ZZ=  0.12456353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4450195E-02 Y= -0.8205107E-09 Z=  0.5706891E-02  Total=      0.0072369
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117732E+02         XY=  0.22250972E-01         XZ=  0.48875249E-01
                YY= -0.10161798E+02         YZ=  0.28534452E-01         ZZ= -0.12206354E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42957706E-02 Y= -0.77540648E-11 Z= -0.90258516E-05   Total=     0.00429578
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11645836E+01         XY= -0.40589150E-01         XZ= -0.19094902E-01
                YY=  0.12458086E+01         YZ= -0.85282010E-04         ZZ=  0.12456165E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3386373E-02 Y= -0.8203662E-09 Z=  0.5705684E-02  Total=      0.0066349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128367E+02         XY=  0.16931862E-01         XZ=  0.44762198E-01
                YY= -0.10161801E+02         YZ=  0.28528420E-01         ZZ= -0.12206369E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22977070E-01 Y= -0.10044557E-10 Z= -0.12428116E-04   Total=     0.02297707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81156479E+00         XY= -0.21710185E+00         XZ= -0.18373522E+00
                YY=  0.12458113E+01         YZ= -0.11742876E-03         ZZ=  0.12455621E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1025398E-02 Y= -0.8197883E-09 Z=  0.5704045E-02  Total=      0.0057955
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151977E+02         XY=  0.51269895E-02         XZ=  0.34432371E-01
                YY= -0.10161801E+02         YZ=  0.28520222E-01         ZZ= -0.12206386E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32957814E-01 Y= -0.11958761E-10 Z= -0.14367449E-04   Total=     0.03295782
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62297310E+00         XY= -0.31140621E+00         XZ= -0.27885319E+00
                YY=  0.12458274E+01         YZ= -0.13575282E-03         ZZ=  0.12455448E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1736021E-02 Y= -0.8207274E-09 Z=  0.5702543E-02  Total=      0.0059609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179596E+02         XY= -0.86801051E-02         XZ=  0.21808419E-01
                YY= -0.10161798E+02         YZ=  0.28512711E-01         ZZ= -0.12206399E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30393270E-01 Y= -0.12500165E-10 Z= -0.12203822E-04   Total=     0.03039327
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67143845E+00         XY= -0.28717478E+00         XZ= -0.26784807E+00
                YY=  0.12458333E+01         YZ= -0.11530952E-03         ZZ=  0.12455864E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3844888E-02 Y= -0.8223890E-09 Z=  0.5701557E-02  Total=      0.0068768
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200690E+02         XY= -0.19224444E-01         XZ=  0.11702476E-01
                YY= -0.10161795E+02         YZ=  0.28507782E-01         ZZ= -0.12206406E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16214024E-01 Y= -0.11176126E-10 Z= -0.89503999E-05   Total=     0.01621403
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93937027E+00         XY= -0.15320033E+00         XZ= -0.15454996E+00
                YY=  0.12458195E+01         YZ= -0.84569122E-04         ZZ=  0.12456274E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4493455E-02 Y= -0.8228224E-09 Z=  0.5700750E-02  Total=      0.0072588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207175E+02         XY= -0.22467279E-01         XZ=  0.79795435E-02
                YY= -0.10161795E+02         YZ=  0.28503749E-01         ZZ= -0.12206415E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42108112E-02 Y= -0.82932329E-11 Z= -0.91403684E-05   Total=     0.00421082
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13253291E+01         XY=  0.39786400E-01         XZ=  0.18121138E-01
                YY=  0.12458036E+01         YZ= -0.86364040E-04         ZZ=  0.12456090E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3428603E-02 Y= -0.8226057E-09 Z=  0.5699532E-02  Total=      0.0066513
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196524E+02         XY= -0.17143019E-01         XZ=  0.12079618E-01
                YY= -0.10161797E+02         YZ=  0.28497656E-01         ZZ= -0.12206431E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23106578E-01 Y= -0.48856747E-11 Z= -0.12573443E-04   Total=     0.02310658
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16824139E+01         XY=  0.21832552E+00         XZ=  0.18444467E+00
                YY=  0.12458063E+01         YZ= -0.11880187E-03         ZZ=  0.12455541E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1050581E-02 Y= -0.8225334E-09 Z=  0.5697871E-02  Total=      0.0057939
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172743E+02         XY= -0.52529094E-02         XZ=  0.22462046E-01
                YY= -0.10161797E+02         YZ=  0.28489353E-01         ZZ= -0.12206448E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33252498E-01 Y= -0.22842076E-11 Z= -0.14568845E-04   Total=     0.03325250
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18741613E+01         XY=  0.31419057E+00         XZ=  0.28091248E+00
                YY=  0.12458226E+01         YZ= -0.13765566E-03         ZZ=  0.12455360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1737406E-02 Y= -0.8217388E-09 Z=  0.5696344E-02  Total=      0.0059554
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144868E+02         XY=  0.86870291E-02         XZ=  0.35183530E-01
                YY= -0.10161795E+02         YZ=  0.28481718E-01         ZZ= -0.12206461E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30740955E-01 Y= -0.15098849E-11 Z= -0.12408174E-04   Total=     0.03074096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18267027E+01         XY=  0.29045993E+00         XZ=  0.27044640E+00
                YY=  0.12458286E+01         YZ= -0.11724027E-03         ZZ=  0.12455777E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3872241E-02 Y= -0.8229669E-09 Z=  0.5695340E-02  Total=      0.0068870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123525E+02         XY=  0.19361205E-01         XZ=  0.45392807E-01
                YY= -0.10161792E+02         YZ=  0.28476698E-01         ZZ= -0.12206468E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16482297E-01 Y= -0.27705252E-11 Z= -0.91001259E-05   Total=     0.01648230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15572358E+01         XY=  0.15573514E+00         XZ=  0.15662967E+00
                YY=  0.12458147E+01         YZ= -0.85983758E-04         ZZ=  0.12456196E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4536276E-02 Y= -0.8240505E-09 Z=  0.5694523E-02  Total=      0.0072805
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116885E+02         XY=  0.22681379E-01         XZ=  0.49178312E-01
                YY= -0.10161792E+02         YZ=  0.28472613E-01         ZZ= -0.12206477E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41242348E-02 Y= -0.53109696E-11 Z= -0.92535407E-05   Total=     0.00412425
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11678139E+01         XY= -0.38968372E-01         XZ= -0.17483463E-01
                YY=  0.12457986E+01         YZ= -0.87433338E-04         ZZ=  0.12456015E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3470486E-02 Y= -0.8223890E-09 Z=  0.5693292E-02  Total=      0.0066677
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127540E+02         XY=  0.17352430E-01         XZ=  0.45067095E-01
                YY= -0.10161794E+02         YZ=  0.28466460E-01         ZZ= -0.12206493E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23234916E-01 Y= -0.77084911E-11 Z= -0.12719666E-04   Total=     0.02323492
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80668083E+00         XY= -0.21953814E+00         XZ= -0.18562183E+00
                YY=  0.12458012E+01         YZ= -0.12018350E-03         ZZ=  0.12455459E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1075456E-02 Y= -0.8210886E-09 Z=  0.5691611E-02  Total=      0.0057923
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151490E+02         XY=  0.53772764E-02         XZ=  0.34598976E-01
                YY= -0.10161794E+02         YZ=  0.28458051E-01         ZZ= -0.12206511E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33547222E-01 Y= -0.84996627E-11 Z= -0.14773734E-04   Total=     0.03354722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61182407E+00         XY= -0.31697531E+00         XZ= -0.28352261E+00
                YY=  0.12458176E+01         YZ= -0.13959163E-03         ZZ=  0.12455271E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1739160E-02 Y= -0.8213053E-09 Z=  0.5690058E-02  Total=      0.0059499
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179641E+02         XY= -0.86958042E-02         XZ=  0.21749209E-01
                YY= -0.10161791E+02         YZ=  0.28450289E-01         ZZ= -0.12206524E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31090205E-01 Y= -0.68599113E-11 Z= -0.12617612E-04   Total=     0.03109021
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65825780E+00         XY= -0.29375986E+00         XZ= -0.27352461E+00
                YY=  0.12458239E+01         YZ= -0.11921921E-03         ZZ=  0.12455689E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3900129E-02 Y= -0.8212331E-09 Z=  0.5689035E-02  Total=      0.0068975
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201256E+02         XY= -0.19500649E-01         XZ=  0.11415899E-01
                YY= -0.10161789E+02         YZ=  0.28445175E-01         ZZ= -0.12206531E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16753403E-01 Y= -0.30213632E-11 Z= -0.92536393E-05   Total=     0.01675341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92916667E+00         XY= -0.15829671E+00         XZ= -0.15907394E+00
                YY=  0.12458099E+01         YZ= -0.87434249E-04         ZZ=  0.12456116E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4579873E-02 Y= -0.8207274E-09 Z=  0.5688208E-02  Total=      0.0073028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208053E+02         XY= -0.22899368E-01         XZ=  0.75505467E-02
                YY= -0.10161789E+02         YZ=  0.28441038E-01         ZZ= -0.12206541E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40342932E-02 Y=  0.17750339E-11 Z= -0.93664045E-05   Total=     0.00403430
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13219819E+01         XY=  0.38118546E-01         XZ=  0.16470395E-01
                YY=  0.12457935E+01         YZ= -0.88499686E-04         ZZ=  0.12455939E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3513400E-02 Y= -0.8200773E-09 Z=  0.5686966E-02  Total=      0.0066847
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197385E+02         XY= -0.17567004E-01         XZ=  0.11647236E-01
                YY= -0.10161791E+02         YZ=  0.28434826E-01         ZZ= -0.12206556E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23360299E-01 Y=  0.57907137E-11 Z= -0.12861314E-04   Total=     0.02336030
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16871970E+01         XY=  0.22072284E+00         XZ=  0.18629416E+00
                YY=  0.12457960E+01         YZ= -0.12152176E-03         ZZ=  0.12455378E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1101563E-02 Y= -0.8184157E-09 Z=  0.5685263E-02  Total=      0.0057910
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173267E+02         XY= -0.55078180E-02         XZ=  0.22166489E-01
                YY= -0.10161791E+02         YZ=  0.28426315E-01         ZZ= -0.12206575E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33840198E-01 Y=  0.75467628E-11 Z= -0.14972324E-04   Total=     0.03384020
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18852562E+01         XY=  0.31974353E+00         XZ=  0.28555794E+00
                YY=  0.12458126E+01         YZ= -0.14146790E-03         ZZ=  0.12455182E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1739580E-02 Y= -0.8158150E-09 Z=  0.5683686E-02  Total=      0.0059439
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144860E+02         XY=  0.86979001E-02         XZ=  0.35112909E-01
                YY= -0.10161788E+02         YZ=  0.28418430E-01         ZZ= -0.12206588E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31439273E-01 Y=  0.64902884E-11 Z= -0.12821814E-04   Total=     0.03143928
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18398883E+01         XY=  0.29705808E+00         XZ=  0.27612050E+00
                YY=  0.12458191E+01         YZ= -0.12114853E-03         ZZ=  0.12455601E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3926695E-02 Y= -0.8153094E-09 Z=  0.5682645E-02  Total=      0.0069073
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122994E+02         XY=  0.19633473E-01         XZ=  0.45549637E-01
                YY= -0.10161785E+02         YZ=  0.28413223E-01         ZZ= -0.12206595E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17025676E-01 Y=  0.32650841E-11 Z= -0.94039422E-05   Total=     0.01702568
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15674932E+01         XY=  0.16086932E+00         XZ=  0.16117340E+00
                YY=  0.12458050E+01         YZ= -0.88854353E-04         ZZ=  0.12456036E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4622243E-02 Y= -0.8163930E-09 Z=  0.5681807E-02  Total=      0.0073245
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116039E+02         XY=  0.23111214E-01         XZ=  0.49478496E-01
                YY= -0.10161785E+02         YZ=  0.28409035E-01         ZZ= -0.12206605E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39425420E-02 Y= -0.54698890E-12 Z= -0.94776898E-05   Total=     0.00394255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11712358E+01         XY= -0.37251623E-01         XZ= -0.15800393E-01
                YY=  0.12457884E+01         YZ= -0.89551198E-04         ZZ=  0.12455863E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3555208E-02 Y= -0.8161763E-09 Z=  0.5680554E-02  Total=      0.0067014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126706E+02         XY=  0.17776037E-01         XZ=  0.45371865E-01
                YY= -0.10161787E+02         YZ=  0.28402765E-01         ZZ= -0.12206621E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23484161E-01 Y= -0.31086213E-11 Z= -0.13002972E-04   Total=     0.02348416
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80195914E+00         XY= -0.22189316E+00         XZ= -0.18744211E+00
                YY=  0.12457908E+01         YZ= -0.12286031E-03         ZZ=  0.12455296E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1126642E-02 Y= -0.8143702E-09 Z=  0.5678831E-02  Total=      0.0057895
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150992E+02         XY=  0.56332093E-02         XZ=  0.34767730E-01
                YY= -0.10161788E+02         YZ=  0.28394151E-01         ZZ= -0.12206639E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34132744E-01 Y= -0.31363236E-11 Z= -0.15173015E-04   Total=     0.03413275
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60074815E+00         XY= -0.32250769E+00         XZ= -0.28815523E+00
                YY=  0.12458076E+01         YZ= -0.14336425E-03         ZZ=  0.12455092E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1741041E-02 Y= -0.8145870E-09 Z=  0.5677229E-02  Total=      0.0059382
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179673E+02         XY= -0.87052079E-02         XZ=  0.21693124E-01
                YY= -0.10161785E+02         YZ=  0.28386141E-01         ZZ= -0.12206652E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31789369E-01 Y= -0.47408995E-12 Z= -0.13029668E-04   Total=     0.03178937
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64503475E+00         XY= -0.30036600E+00         XZ= -0.27920707E+00
                YY=  0.12458142E+01         YZ= -0.12311252E-03         ZZ=  0.12455511E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3954417E-02 Y= -0.8169709E-09 Z=  0.5676168E-02  Total=      0.0069178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201812E+02         XY= -0.19772086E-01         XZ=  0.11131781E-01
                YY= -0.10161782E+02         YZ=  0.28380840E-01         ZZ= -0.12206660E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17300227E-01 Y=  0.38269199E-11 Z= -0.95570369E-05   Total=     0.01730023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91882210E+00         XY= -0.16346346E+00         XZ= -0.16364375E+00
                YY=  0.12458001E+01         YZ= -0.90300881E-04         ZZ=  0.12455954E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4665959E-02 Y= -0.8173321E-09 Z=  0.5675320E-02  Total=      0.0073471
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208928E+02         XY= -0.23329797E-01         XZ=  0.71219761E-02
                YY= -0.10161782E+02         YZ=  0.28376600E-01         ZZ= -0.12206670E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38479669E-02 Y=  0.79635537E-11 Z= -0.95883098E-05   Total=     0.00384798
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13184492E+01         XY=  0.36358018E-01         XZ=  0.14751702E-01
                YY=  0.12457831E+01         YZ= -0.90596332E-04         ZZ=  0.12455786E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3598566E-02 Y= -0.8155983E-09 Z=  0.5674055E-02  Total=      0.0067190
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198251E+02         XY= -0.17992831E-01         XZ=  0.11212667E-01
                YY= -0.10161784E+02         YZ=  0.28370275E-01         ZZ= -0.12206686E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23605590E-01 Y=  0.10173357E-10 Z= -0.13140223E-04   Total=     0.02360559
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16918205E+01         XY=  0.22304051E+00         XZ=  0.18807960E+00
                YY=  0.12457854E+01         YZ= -0.12415703E-03         ZZ=  0.12455214E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1153425E-02 Y= -0.8140090E-09 Z=  0.5672313E-02  Total=      0.0057884
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173799E+02         XY= -0.57671250E-02         XZ=  0.21866553E-01
                YY= -0.10161784E+02         YZ=  0.28361561E-01         ZZ= -0.12206704E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34424066E-01 Y=  0.95128511E-11 Z= -0.15367863E-04   Total=     0.03442407
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18962784E+01         XY=  0.32526028E+00         XZ=  0.29016768E+00
                YY=  0.12458024E+01         YZ= -0.14520518E-03         ZZ=  0.12455002E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1740748E-02 Y= -0.8124920E-09 Z=  0.5670686E-02  Total=      0.0059319
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144862E+02         XY=  0.87037370E-02         XZ=  0.35036967E-01
                YY= -0.10161781E+02         YZ=  0.28353428E-01         ZZ= -0.12206718E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32139831E-01 Y=  0.62741744E-11 Z= -0.13232833E-04   Total=     0.03213983
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18531161E+01         XY=  0.30367740E+00         XZ=  0.28180089E+00
                YY=  0.12458093E+01         YZ= -0.12503210E-03         ZZ=  0.12455422E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3980449E-02 Y= -0.8124920E-09 Z=  0.5669607E-02  Total=      0.0069274
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122471E+02         XY=  0.19902242E-01         XZ=  0.45701820E-01
                YY= -0.10161778E+02         YZ=  0.28348035E-01         ZZ= -0.12206726E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17576542E-01 Y=  0.18584745E-11 Z= -0.97074085E-05   Total=     0.01757654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15778919E+01         XY=  0.16607425E+00         XZ=  0.16576319E+00
                YY=  0.12457950E+01         YZ= -0.91721703E-04         ZZ=  0.12455873E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4708137E-02 Y= -0.8137923E-09 Z=  0.5668749E-02  Total=      0.0073689
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115194E+02         XY=  0.23540683E-01         XZ=  0.49776076E-01
                YY= -0.10161778E+02         YZ=  0.28343743E-01         ZZ= -0.12206735E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37509358E-02 Y= -0.18403520E-11 Z= -0.96976482E-05   Total=     0.00375095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11748448E+01         XY= -0.35441207E-01         XZ= -0.14048850E-01
                YY=  0.12457778E+01         YZ= -0.91629512E-04         ZZ=  0.12455709E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3640565E-02 Y= -0.8126365E-09 Z=  0.5667473E-02  Total=      0.0067360
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125867E+02         XY=  0.18202824E-01         XZ=  0.45676671E-01
                YY= -0.10161780E+02         YZ=  0.28337363E-01         ZZ= -0.12206752E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23724818E-01 Y= -0.32644916E-11 Z= -0.13277543E-04   Total=     0.02372482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79739944E+00         XY= -0.22416704E+00         XZ= -0.18919747E+00
                YY=  0.12457800E+01         YZ= -0.12545463E-03         ZZ=  0.12455131E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1178988E-02 Y= -0.8114084E-09 Z=  0.5665710E-02  Total=      0.0057871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150482E+02         XY=  0.58949385E-02         XZ=  0.34938752E-01
                YY= -0.10161781E+02         YZ=  0.28328550E-01         ZZ= -0.12206770E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34714268E-01 Y= -0.18660381E-11 Z= -0.15564748E-04   Total=     0.03471427
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58974751E+00         XY= -0.32800230E+00         XZ= -0.29275124E+00
                YY=  0.12457972E+01         YZ= -0.14706557E-03         ZZ=  0.12454911E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1741625E-02 Y= -0.8118418E-09 Z=  0.5664059E-02  Total=      0.0059258
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179693E+02         XY= -0.87081247E-02         XZ=  0.21640280E-01
                YY= -0.10161778E+02         YZ=  0.28320293E-01         ZZ= -0.12206784E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32490654E-01 Y=  0.16726729E-11 Z= -0.13439663E-04   Total=     0.03249066
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63177134E+00         XY= -0.30699219E+00         XZ= -0.28489525E+00
                YY=  0.12458043E+01         YZ= -0.12698640E-03         ZZ=  0.12455331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4007707E-02 Y= -0.8132144E-09 Z=  0.5662961E-02  Total=      0.0069376
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202359E+02         XY= -0.20038538E-01         XZ=  0.10850244E-01
                YY= -0.10161775E+02         YZ=  0.28314805E-01         ZZ= -0.12206792E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17854504E-01 Y=  0.57641928E-11 Z= -0.98607600E-05   Total=     0.01785451
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90833645E+00         XY= -0.16870062E+00         XZ= -0.16825948E+00
                YY=  0.12457899E+01         YZ= -0.93170631E-04         ZZ=  0.12455790E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4751673E-02 Y= -0.8134311E-09 Z=  0.5662093E-02  Total=      0.0073917
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209800E+02         XY= -0.23758369E-01         XZ=  0.66939531E-02
                YY= -0.10161775E+02         YZ=  0.28310462E-01         ZZ= -0.12206802E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36516817E-02 Y=  0.86306446E-11 Z= -0.98065715E-05   Total=     0.00365169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13147280E+01         XY=  0.34503392E-01         XZ=  0.12964431E-01
                YY=  0.12457725E+01         YZ= -0.92658600E-04         ZZ=  0.12455631E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3684072E-02 Y= -0.8115528E-09 Z=  0.5660806E-02  Total=      0.0067540
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199121E+02         XY= -0.18420362E-01         XZ=  0.10776020E-01
                YY= -0.10161777E+02         YZ=  0.28304028E-01         ZZ= -0.12206818E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23842213E-01 Y=  0.90846456E-11 Z= -0.13410548E-04   Total=     0.02384222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16962800E+01         XY=  0.22527627E+00         XZ=  0.18980013E+00
                YY=  0.12457745E+01         YZ= -0.12671124E-03         ZZ=  0.12455048E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1206154E-02 Y= -0.8096746E-09 Z=  0.5659024E-02  Total=      0.0057861
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174341E+02         XY= -0.60307710E-02         XZ=  0.21562330E-01
                YY= -0.10161777E+02         YZ=  0.28295118E-01         ZZ= -0.12206837E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35003887E-01 Y=  0.70278139E-11 Z= -0.15755570E-04   Total=     0.03500389
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19072239E+01         XY=  0.33073880E+00         XZ=  0.29474128E+00
                YY=  0.12457919E+01         YZ= -0.14886850E-03         ZZ=  0.12454821E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1740911E-02 Y= -0.8089522E-09 Z=  0.5657348E-02  Total=      0.0059192
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144875E+02         XY=  0.87045508E-02         XZ=  0.34955810E-01
                YY= -0.10161775E+02         YZ=  0.28286740E-01         ZZ= -0.12206852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32842565E-01 Y=  0.34488134E-11 Z= -0.13641234E-04   Total=     0.03284257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18663846E+01         XY=  0.31031727E+00         XZ=  0.28748828E+00
                YY=  0.12457992E+01         YZ= -0.12889095E-03         ZZ=  0.12455241E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4033508E-02 Y= -0.8092411E-09 Z=  0.5656232E-02  Total=      0.0069471
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121954E+02         XY=  0.20167539E-01         XZ=  0.45849521E-01
                YY= -0.10161772E+02         YZ=  0.28281159E-01         ZZ= -0.12206860E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18135050E-01 Y= -0.58485583E-13 Z= -0.10010438E-04   Total=     0.01813505
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15884347E+01         XY=  0.17135139E+00         XZ=  0.17040120E+00
                YY=  0.12457848E+01         YZ= -0.94584929E-04         ZZ=  0.12455708E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4793980E-02 Y= -0.8101080E-09 Z=  0.5655354E-02  Total=      0.0074139
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114350E+02         XY=  0.23969900E-01         XZ=  0.50071320E-01
                YY= -0.10161771E+02         YZ=  0.28276766E-01         ZZ= -0.12206869E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35490589E-02 Y= -0.20275267E-11 Z= -0.99128201E-05   Total=     0.00354907
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11786476E+01         XY= -0.33533747E-01         XZ= -0.12225491E-01
                YY=  0.12457670E+01         YZ= -0.93662593E-04         ZZ=  0.12455553E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3726610E-02 Y= -0.8100358E-09 Z=  0.5654056E-02  Total=      0.0067717
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125021E+02         XY=  0.18633048E-01         XZ=  0.45981906E-01
                YY= -0.10161773E+02         YZ=  0.28270280E-01         ZZ= -0.12206886E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23956439E-01 Y= -0.17627153E-11 Z= -0.13541819E-04   Total=     0.02395644
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79301022E+00         XY= -0.22635554E+00         XZ= -0.19088429E+00
                YY=  0.12457690E+01         YZ= -0.12795167E-03         ZZ=  0.12454965E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1232573E-02 Y= -0.8092411E-09 Z=  0.5652255E-02  Total=      0.0057851
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149961E+02         XY=  0.61628627E-02         XZ=  0.35112545E-01
                YY= -0.10161774E+02         YZ=  0.28261274E-01         ZZ= -0.12206905E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35291424E-01 Y=  0.39207483E-12 Z= -0.15946514E-04   Total=     0.03529143
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57882913E+00         XY= -0.33345563E+00         XZ= -0.29730801E+00
                YY=  0.12457865E+01         YZ= -0.15067272E-03         ZZ=  0.12454729E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1740815E-02 Y= -0.8080853E-09 Z=  0.5650555E-02  Total=      0.0059126
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179699E+02         XY= -0.87040757E-02         XZ=  0.21591222E-01
                YY= -0.10161771E+02         YZ=  0.28252774E-01         ZZ= -0.12206920E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33193941E-01 Y=  0.32674365E-11 Z= -0.13844972E-04   Total=     0.03319394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61846983E+00         XY= -0.31363729E+00         XZ= -0.29058877E+00
                YY=  0.12457940E+01         YZ= -0.13081600E-03         ZZ=  0.12455149E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4059911E-02 Y= -0.8074351E-09 Z=  0.5649420E-02  Total=      0.0069569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202896E+02         XY= -0.20299559E-01         XZ=  0.10571777E-01
                YY= -0.10161768E+02         YZ=  0.28247099E-01         ZZ= -0.12206928E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18416472E-01 Y=  0.54436438E-11 Z= -0.10162485E-04   Total=     0.01841647
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89770522E+00         XY= -0.17401044E+00         XZ= -0.17292376E+00
                YY=  0.12457795E+01         YZ= -0.96021520E-04         ZZ=  0.12455624E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4836961E-02 Y= -0.8075796E-09 Z=  0.5648531E-02  Total=      0.0074365
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210667E+02         XY= -0.24184808E-01         XZ=  0.62667924E-02
                YY= -0.10161768E+02         YZ=  0.28242655E-01         ZZ= -0.12206938E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34448343E-02 Y=  0.59049858E-11 Z= -0.10019028E-04   Total=     0.00344485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13108069E+01         XY=  0.32548967E-01         XZ=  0.11102971E-01
                YY=  0.12457615E+01         YZ= -0.94666050E-04         ZZ=  0.12455475E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3769921E-02 Y= -0.8060625E-09 Z=  0.5647224E-02  Total=      0.0067900
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199994E+02         XY= -0.18849609E-01         XZ=  0.10337334E-01
                YY= -0.10161770E+02         YZ=  0.28236119E-01         ZZ= -0.12206954E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24069303E-01 Y=  0.44690530E-11 Z= -0.13669792E-04   Total=     0.02406931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17005590E+01         XY=  0.22742196E+00         XZ=  0.19144799E+00
                YY=  0.12457633E+01         YZ= -0.12916078E-03         ZZ=  0.12454882E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1259823E-02 Y= -0.8035341E-09 Z=  0.5645404E-02  Total=      0.0057843
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174892E+02         XY= -0.62991145E-02         XZ=  0.21253533E-01
                YY= -0.10161770E+02         YZ=  0.28227019E-01         ZZ= -0.12206974E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35578724E-01 Y=  0.18032902E-11 Z= -0.16132473E-04   Total=     0.03557873
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19180748E+01         XY=  0.33617022E+00         XZ=  0.29927031E+00
                YY=  0.12457811E+01         YZ= -0.15242976E-03         ZZ=  0.12454638E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1739929E-02 Y= -0.8015114E-09 Z=  0.5643680E-02  Total=      0.0059058
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144899E+02         XY=  0.86996438E-02         XZ=  0.34868830E-01
                YY= -0.10161768E+02         YZ=  0.28218399E-01         ZZ= -0.12206988E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33546670E-01 Y= -0.95194489E-12 Z= -0.14044041E-04   Total=     0.03354667
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18796788E+01         XY=  0.31697010E+00         XZ=  0.29317523E+00
                YY=  0.12457887E+01         YZ= -0.13269696E-03         ZZ=  0.12455058E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4085682E-02 Y= -0.8023783E-09 Z=  0.5642527E-02  Total=      0.0069664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121447E+02         XY=  0.20428409E-01         XZ=  0.45991875E-01
                YY= -0.10161764E+02         YZ=  0.28212632E-01         ZZ= -0.12206997E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18700704E-01 Y= -0.27505036E-11 Z= -0.10310630E-04   Total=     0.01870071
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15991123E+01         XY=  0.17669605E+00         XZ=  0.17508244E+00
                YY=  0.12457742E+01         YZ= -0.97421359E-04         ZZ=  0.12455541E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4879559E-02 Y= -0.8048344E-09 Z=  0.5641628E-02  Total=      0.0074591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113509E+02         XY=  0.24397791E-01         XZ=  0.50363220E-01
                YY= -0.10161764E+02         YZ=  0.28208139E-01         ZZ= -0.12207007E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33370163E-02 Y= -0.31154286E-11 Z= -0.10121488E-04   Total=     0.00333703
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11826423E+01         XY= -0.31530235E-01         XZ= -0.10332050E-01
                YY=  0.12457559E+01         YZ= -0.95634227E-04         ZZ=  0.12455396E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3813132E-02 Y= -0.8043288E-09 Z=  0.5640311E-02  Total=      0.0068083
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124171E+02         XY=  0.19065659E-01         XZ=  0.46286554E-01
                YY= -0.10161766E+02         YZ=  0.28201554E-01         ZZ= -0.12207023E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24178754E-01 Y= -0.22994127E-11 Z= -0.13794431E-04   Total=     0.02417876
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78879657E+00         XY= -0.22845612E+00         XZ= -0.19250100E+00
                YY=  0.12457576E+01         YZ= -0.13033850E-03         ZZ=  0.12454798E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1287217E-02 Y= -0.8025227E-09 Z=  0.5638473E-02  Total=      0.0057835
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149429E+02         XY=  0.64360854E-02         XZ=  0.35288206E-01
                YY= -0.10161767E+02         YZ=  0.28192362E-01         ZZ= -0.12207043E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35863672E-01 Y= -0.10753125E-11 Z= -0.16317028E-04   Total=     0.03586368
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56800319E+00         XY= -0.33886259E+00         XZ= -0.30182131E+00
                YY=  0.12457755E+01         YZ= -0.15417358E-03         ZZ=  0.12454546E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1738745E-02 Y= -0.8027395E-09 Z=  0.5636725E-02  Total=      0.0058988
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179693E+02         XY= -0.86937249E-02         XZ=  0.21545254E-01
                YY= -0.10161764E+02         YZ=  0.28183623E-01         ZZ= -0.12207058E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33898575E-01 Y= -0.28602913E-12 Z= -0.14244445E-04   Total=     0.03389858
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60514261E+00         XY= -0.32029511E+00         XZ= -0.29628183E+00
                YY=  0.12457834E+01         YZ= -0.13459051E-03         ZZ=  0.12454966E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4111112E-02 Y= -0.8059181E-09 Z=  0.5635553E-02  Total=      0.0069757
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203423E+02         XY= -0.20555560E-01         XZ=  0.10295936E-01
                YY= -0.10161761E+02         YZ=  0.28177762E-01         ZZ= -0.12207067E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18985509E-01 Y= -0.39802450E-12 Z= -0.10461258E-04   Total=     0.01898551
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88694015E+00         XY= -0.17938706E+00         XZ= -0.17763042E+00
                YY=  0.12457688E+01         YZ= -0.98844572E-04         ZZ=  0.12455456E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4921859E-02 Y= -0.8092411E-09 Z=  0.5634644E-02  Total=      0.0074816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211531E+02         XY= -0.24609295E-01         XZ=  0.58403026E-02
                YY= -0.10161761E+02         YZ=  0.28173219E-01         ZZ= -0.12207077E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32279083E-02 Y= -0.12872463E-11 Z= -0.10224680E-04   Total=     0.00322792
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13066952E+01         XY=  0.30499313E-01         XZ=  0.91728921E-02
                YY=  0.12457503E+01         YZ= -0.96609236E-04         ZZ=  0.12455317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3856117E-02 Y= -0.8090967E-09 Z=  0.5633318E-02  Total=      0.0068267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200871E+02         XY= -0.19280585E-01         XZ=  0.98966404E-02
                YY= -0.10161763E+02         YZ=  0.28166586E-01         ZZ= -0.12207093E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24287167E-01 Y= -0.23564203E-11 Z= -0.13916617E-04   Total=     0.02428717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17046634E+01         XY=  0.22948047E+00         XZ=  0.19302757E+00
                YY=  0.12457518E+01         YZ= -0.13149300E-03         ZZ=  0.12454715E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1314414E-02 Y= -0.8063515E-09 Z=  0.5631461E-02  Total=      0.0057828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175453E+02         XY= -0.65720697E-02         XZ=  0.20940360E-01
                YY= -0.10161763E+02         YZ=  0.28157304E-01         ZZ= -0.12207113E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36148725E-01 Y= -0.29043903E-11 Z= -0.16497073E-04   Total=     0.03614873
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19288342E+01         XY=  0.34155595E+00         XZ=  0.30375777E+00
                YY=  0.12457699E+01         YZ= -0.15587477E-03         ZZ=  0.12454455E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1737830E-02 Y= -0.8051957E-09 Z=  0.5629690E-02  Total=      0.0058918
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144935E+02         XY=  0.86891489E-02         XZ=  0.34776331E-01
                YY= -0.10161760E+02         YZ=  0.28148448E-01         ZZ= -0.12207129E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34252195E-01 Y= -0.25387786E-11 Z= -0.14440215E-04   Total=     0.03425220
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18929996E+01         XY=  0.32363634E+00         XZ=  0.29886345E+00
                YY=  0.12457780E+01         YZ= -0.13644028E-03         ZZ=  0.12454874E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4137000E-02 Y= -0.8066405E-09 Z=  0.5628499E-02  Total=      0.0069853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120949E+02         XY=  0.20684998E-01         XZ=  0.46129236E-01
                YY= -0.10161757E+02         YZ=  0.28142495E-01         ZZ= -0.12207138E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19273504E-01 Y= -0.14016132E-11 Z= -0.10607757E-04   Total=     0.01927351
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16099247E+01         XY=  0.18210822E+00         XZ=  0.17980747E+00
                YY=  0.12457634E+01         YZ= -0.10022879E-03         ZZ=  0.12455371E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4964898E-02 Y= -0.8089522E-09 Z=  0.5627581E-02  Total=      0.0075047
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112671E+02         XY=  0.24824490E-01         XZ=  0.50652126E-01
                YY= -0.10161757E+02         YZ=  0.28137904E-01         ZZ= -0.12207147E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31148301E-02 Y= -0.85078314E-13 Z= -0.10323796E-04   Total=     0.00311485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11868285E+01         XY= -0.29430880E-01         XZ= -0.83690175E-02
                YY=  0.12457446E+01         YZ= -0.97545741E-04         ZZ=  0.12455238E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3900153E-02 Y= -0.8084465E-09 Z=  0.5626246E-02  Total=      0.0068459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123316E+02         XY=  0.19500761E-01         XZ=  0.46590904E-01
                YY= -0.10161759E+02         YZ=  0.28131225E-01         ZZ= -0.12207164E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24391833E-01 Y=  0.71677497E-12 Z= -0.14035101E-04   Total=     0.02439184
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78475722E+00         XY= -0.23046942E+00         XZ= -0.19404925E+00
                YY=  0.12457460E+01         YZ= -0.13261248E-03         ZZ=  0.12454631E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1342930E-02 Y= -0.8064237E-09 Z=  0.5624372E-02  Total=      0.0057825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148887E+02         XY=  0.67146476E-02         XZ=  0.35465907E-01
                YY= -0.10161759E+02         YZ=  0.28121856E-01         ZZ= -0.12207184E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36431188E-01 Y=  0.62877684E-12 Z= -0.16675350E-04   Total=     0.03643119
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55726642E+00         XY= -0.34422484E+00         XZ= -0.30629420E+00
                YY=  0.12457642E+01         YZ= -0.15755922E-03         ZZ=  0.12454363E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1735429E-02 Y= -0.8069294E-09 Z=  0.5622577E-02  Total=      0.0058843
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179675E+02         XY= -0.86771483E-02         XZ=  0.21502369E-01
                YY= -0.10161757E+02         YZ=  0.28112882E-01         ZZ= -0.12207200E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34604904E-01 Y= -0.14659261E-12 Z= -0.14637052E-04   Total=     0.03460491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59178308E+00         XY= -0.32696896E+00         XZ= -0.30197914E+00
                YY=  0.12457726E+01         YZ= -0.13830010E-03         ZZ=  0.12454781E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4161361E-02 Y= -0.8089522E-09 Z=  0.5621368E-02  Total=      0.0069940
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203940E+02         XY= -0.20806806E-01         XZ=  0.10022468E-01
                YY= -0.10161753E+02         YZ=  0.28106836E-01         ZZ= -0.12207209E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19562181E-01 Y= -0.89001532E-12 Z= -0.10756647E-04   Total=     0.01956218
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87603057E+00         XY= -0.18483582E+00         XZ= -0.18238582E+00
                YY=  0.12457579E+01         YZ= -0.10163560E-03         ZZ=  0.12455286E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5006472E-02 Y= -0.8109027E-09 Z=  0.5620440E-02  Total=      0.0075269
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212392E+02         XY= -0.25032362E-01         XZ=  0.54139347E-02
                YY= -0.10161753E+02         YZ=  0.28102197E-01         ZZ= -0.12207219E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30001422E-02 Y= -0.73224088E-12 Z= -0.10423730E-04   Total=     0.00300016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13023783E+01         XY=  0.28347235E-01         XZ=  0.71665935E-02
                YY=  0.12457388E+01         YZ= -0.98489981E-04         ZZ=  0.12455158E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3942827E-02 Y= -0.8115528E-09 Z=  0.5619095E-02  Total=      0.0068644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201753E+02         XY= -0.19714139E-01         XZ=  0.94530673E-02
                YY= -0.10161755E+02         YZ=  0.28095473E-01         ZZ= -0.12207236E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24494949E-01 Y=  0.85335457E-12 Z= -0.14151349E-04   Total=     0.02449495
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17085770E+01         XY=  0.23144372E+00         XZ=  0.19453100E+00
                YY=  0.12457401E+01         YZ= -0.13371086E-03         ZZ=  0.12454547E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1370160E-02 Y= -0.8100358E-09 Z=  0.5617204E-02  Total=      0.0057819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176025E+02         XY= -0.68508016E-02         XZ=  0.20621641E-01
                YY= -0.10161756E+02         YZ=  0.28086018E-01         ZZ= -0.12207256E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36713107E-01 Y=  0.36950514E-11 Z= -0.16849443E-04   Total=     0.03671311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19394871E+01         XY=  0.34688859E+00         XZ=  0.30819690E+00
                YY=  0.12457585E+01         YZ= -0.15920413E-03         ZZ=  0.12454271E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1734331E-02 Y= -0.8075796E-09 Z=  0.5615386E-02  Total=      0.0058771
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144985E+02         XY=  0.86716517E-02         XZ=  0.34676923E-01
                YY= -0.10161753E+02         YZ=  0.28076929E-01         ZZ= -0.12207272E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34958625E-01 Y=  0.69070559E-11 Z= -0.14829646E-04   Total=     0.03495863
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19063373E+01         XY=  0.33031114E+00         XZ=  0.30454882E+00
                YY=  0.12457670E+01         YZ= -0.14011979E-03         ZZ=  0.12454688E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4187156E-02 Y= -0.8063515E-09 Z=  0.5614159E-02  Total=      0.0070036
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120463E+02         XY=  0.20935778E-01         XZ=  0.46260131E-01
                YY= -0.10161750E+02         YZ=  0.28070792E-01         ZZ= -0.12207281E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19853374E-01 Y=  0.92576270E-11 Z= -0.10901676E-04   Total=     0.01985338
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16208705E+01         XY=  0.18758720E+00         XZ=  0.18457610E+00
                YY=  0.12457523E+01         YZ= -0.10300583E-03         ZZ=  0.12455201E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5049709E-02 Y= -0.8069294E-09 Z=  0.5613221E-02  Total=      0.0075504
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111838E+02         XY=  0.25248542E-01         XZ=  0.50936649E-01
                YY= -0.10161749E+02         YZ=  0.28066105E-01         ZZ= -0.12207291E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28820579E-02 Y=  0.97623621E-11 Z= -0.10519420E-04   Total=     0.00288208
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11912145E+01         XY= -0.27231500E-01         XZ= -0.63320632E-02
                YY=  0.12457329E+01         YZ= -0.99394029E-04         ZZ=  0.12455078E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3987434E-02 Y= -0.8063515E-09 Z=  0.5611868E-02  Total=      0.0068842
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122458E+02         XY=  0.19937170E-01         XZ=  0.46893835E-01
                YY= -0.10161751E+02         YZ=  0.28059339E-01         ZZ= -0.12207308E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24594752E-01 Y=  0.82147347E-11 Z= -0.14263096E-04   Total=     0.02459476
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78090962E+00         XY= -0.23238673E+00         XZ= -0.19552052E+00
                YY=  0.12457341E+01         YZ= -0.13476666E-03         ZZ=  0.12454463E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1399558E-02 Y= -0.8054846E-09 Z=  0.5609960E-02  Total=      0.0057819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148336E+02         XY=  0.69977900E-02         XZ=  0.35644942E-01
                YY= -0.10161752E+02         YZ=  0.28049800E-01         ZZ= -0.12207329E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36992735E-01 Y=  0.53769859E-11 Z= -0.17020511E-04   Total=     0.03699274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54664221E+00         XY= -0.34953069E+00         XZ= -0.31071534E+00
                YY=  0.12457527E+01         YZ= -0.16082048E-03         ZZ=  0.12454179E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1730920E-02 Y= -0.8060625E-09 Z=  0.5608120E-02  Total=      0.0058692
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179645E+02         XY= -0.86546025E-02         XZ=  0.21462351E-01
                YY= -0.10161749E+02         YZ=  0.28040598E-01         ZZ= -0.12207345E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35311628E-01 Y=  0.27041127E-11 Z= -0.15022099E-04   Total=     0.03531163
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57841588E+00         XY= -0.33364654E+00         XZ= -0.30766860E+00
                YY=  0.12457614E+01         YZ= -0.14193824E-03         ZZ=  0.12454594E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4210614E-02 Y= -0.8066405E-09 Z=  0.5606874E-02  Total=      0.0070119
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204448E+02         XY= -0.21053074E-01         XZ=  0.97516388E-02
                YY= -0.10161746E+02         YZ=  0.28034368E-01         ZZ= -0.12207354E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20145388E-01 Y=  0.17000150E-11 Z= -0.11048443E-04   Total=     0.02014539
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86499729E+00         XY= -0.19034633E+00         XZ= -0.18717938E+00
                YY=  0.12457466E+01         YZ= -0.10439264E-03         ZZ=  0.12455114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5090684E-02 Y= -0.8074351E-09 Z=  0.5605927E-02  Total=      0.0075724
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213250E+02         XY= -0.25453424E-01         XZ=  0.49883334E-02
                YY= -0.10161746E+02         YZ=  0.28029634E-01         ZZ= -0.12207364E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27622275E-02 Y=  0.31909288E-11 Z= -0.10615975E-04   Total=     0.00276225
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12978695E+01         XY=  0.26099267E-01         XZ=  0.50912457E-02
                YY=  0.12457270E+01         YZ= -0.10030640E-03         ZZ=  0.12454998E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4029900E-02 Y= -0.8067850E-09 Z=  0.5604566E-02  Total=      0.0069030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202639E+02         XY= -0.20149503E-01         XZ=  0.90074790E-02
                YY= -0.10161747E+02         YZ=  0.28022827E-01         ZZ= -0.12207381E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24692840E-01 Y=  0.68650046E-11 Z= -0.14373067E-04   Total=     0.02469284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17123036E+01         XY=  0.23331352E+00         XZ=  0.19596104E+00
                YY=  0.12457281E+01         YZ= -0.13580574E-03         ZZ=  0.12454380E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1426909E-02 Y= -0.8034619E-09 Z=  0.5602642E-02  Total=      0.0057815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176608E+02         XY= -0.71345479E-02         XZ=  0.20298277E-01
                YY= -0.10161748E+02         YZ=  0.28013206E-01         ZZ= -0.12207402E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37271611E-01 Y=  0.11322321E-10 Z= -0.17187770E-04   Total=     0.03727161
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19500286E+01         XY=  0.35216569E+00         XZ=  0.31258619E+00
                YY=  0.12457468E+01         YZ= -0.16240080E-03         ZZ=  0.12454087E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1729551E-02 Y= -0.8002833E-09 Z=  0.5600779E-02  Total=      0.0058617
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145048E+02         XY=  0.86477547E-02         XZ=  0.34571381E-01
                YY= -0.10161745E+02         YZ=  0.28003892E-01         ZZ= -0.12207418E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35665404E-01 Y=  0.14648235E-10 Z= -0.15210195E-04   Total=     0.03566541
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19196813E+01         XY=  0.33698923E+00         XZ=  0.31022661E+00
                YY=  0.12457558E+01         YZ= -0.14371539E-03         ZZ=  0.12454501E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4236222E-02 Y= -0.7977549E-09 Z=  0.5599515E-02  Total=      0.0070214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119987E+02         XY=  0.21181109E-01         XZ=  0.46385098E-01
                YY= -0.10161742E+02         YZ=  0.27997572E-01         ZZ= -0.12207428E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20439660E-01 Y=  0.15275044E-10 Z= -0.11190577E-04   Total=     0.02043966
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16319374E+01         XY=  0.19312680E+00         XZ=  0.18938196E+00
                YY=  0.12457410E+01         YZ= -0.10573550E-03         ZZ=  0.12455029E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5134012E-02 Y= -0.7960211E-09 Z=  0.5598559E-02  Total=      0.0075962
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111011E+02         XY=  0.25670056E-01         XZ=  0.51217053E-01
                YY= -0.10161742E+02         YZ=  0.27992792E-01         ZZ= -0.12207438E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26392738E-02 Y=  0.12743250E-10 Z= -0.10706933E-04   Total=     0.00263930
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11957894E+01         XY= -0.24937523E-01         XZ= -0.42276606E-02
                YY=  0.12457211E+01         YZ= -0.10116575E-03         ZZ=  0.12454918E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4074957E-02 Y= -0.7937816E-09 Z=  0.5597190E-02  Total=      0.0069234
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121599E+02         XY=  0.20374785E-01         XZ=  0.47195345E-01
                YY= -0.10161744E+02         YZ=  0.27985946E-01         ZZ= -0.12207455E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24787917E-01 Y=  0.79975532E-11 Z= -0.14476896E-04   Total=     0.02478792
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77724614E+00         XY= -0.23421187E+00         XZ= -0.19692038E+00
                YY=  0.12457220E+01         YZ= -0.13678678E-03         ZZ=  0.12454296E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1457055E-02 Y= -0.7913977E-09 Z=  0.5595250E-02  Total=      0.0057819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147777E+02         XY=  0.72852731E-02         XZ=  0.35825085E-01
                YY= -0.10161744E+02         YZ=  0.27976247E-01         ZZ= -0.12207476E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37548556E-01 Y=  0.30495804E-11 Z= -0.17350544E-04   Total=     0.03754856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53612594E+00         XY= -0.35478244E+00         XZ= -0.31508905E+00
                YY=  0.12457408E+01         YZ= -0.16393886E-03         ZZ=  0.12453995E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1725283E-02 Y= -0.7921923E-09 Z=  0.5593365E-02  Total=      0.0058534
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179604E+02         XY= -0.86264172E-02         XZ=  0.21424801E-01
                YY= -0.10161742E+02         YZ=  0.27966823E-01         ZZ= -0.12207493E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36018917E-01 Y=  0.12828016E-12 Z= -0.15397338E-04   Total=     0.03601892
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56503778E+00         XY= -0.34032944E+00         XZ= -0.31335362E+00
                YY=  0.12457500E+01         YZ= -0.14548375E-03         ZZ=  0.12454407E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4258953E-02 Y= -0.7954431E-09 Z=  0.5592083E-02  Total=      0.0070292
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204947E+02         XY= -0.21294768E-01         XZ=  0.94829106E-02
                YY= -0.10161738E+02         YZ=  0.27960412E-01         ZZ= -0.12207502E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20735327E-01 Y=  0.68217440E-12 Z= -0.11334482E-04   Total=     0.02073533
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85383660E+00         XY= -0.19592045E+00         XZ= -0.19201409E+00
                YY=  0.12457352E+01         YZ= -0.10709532E-03         ZZ=  0.12454942E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5174594E-02 Y= -0.7963823E-09 Z=  0.5591118E-02  Total=      0.0076182
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214105E+02         XY= -0.25872973E-01         XZ=  0.45628460E-02
                YY= -0.10161738E+02         YZ=  0.27955586E-01         ZZ= -0.12207512E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25138869E-02 Y=  0.46823384E-11 Z= -0.10799403E-04   Total=     0.00251391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12931635E+01         XY=  0.23752789E-01         XZ=  0.29440790E-02
                YY=  0.12457151E+01         YZ= -0.10203953E-03         ZZ=  0.12454837E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4117454E-02 Y= -0.7954431E-09 Z=  0.5589741E-02  Total=      0.0069425
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203531E+02         XY= -0.20587273E-01         XZ=  0.85591291E-02
                YY= -0.10161740E+02         YZ=  0.27948702E-01         ZZ= -0.12207529E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24880518E-01 Y=  0.10562074E-10 Z= -0.14579704E-04   Total=     0.02488052
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17158368E+01         XY=  0.23508683E+00         XZ=  0.19731544E+00
                YY=  0.12457158E+01         YZ= -0.13775815E-03         ZZ=  0.12454212E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1484800E-02 Y= -0.7931314E-09 Z=  0.5587786E-02  Total=      0.0057817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177203E+02         XY= -0.74240035E-02         XZ=  0.19969470E-01
                YY= -0.10161740E+02         YZ=  0.27938926E-01         ZZ= -0.12207551E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37823990E-01 Y=  0.15850948E-10 Z= -0.17509936E-04   Total=     0.03782399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19604542E+01         XY=  0.35738491E+00         XZ=  0.31692477E+00
                YY=  0.12457348E+01         YZ= -0.16544478E-03         ZZ=  0.12453904E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1723346E-02 Y= -0.7894472E-09 Z=  0.5585879E-02  Total=      0.0058457
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145126E+02         XY=  0.86167290E-02         XZ=  0.34458939E-01
                YY= -0.10161738E+02         YZ=  0.27929393E-01         ZZ= -0.12207568E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36372525E-01 Y=  0.18244708E-10 Z= -0.15580071E-04   Total=     0.03637253
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19330315E+01         XY=  0.34367055E+00         XZ=  0.31589838E+00
                YY=  0.12457442E+01         YZ= -0.14721018E-03         ZZ=  0.12454314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4284069E-02 Y= -0.7877134E-09 Z=  0.5584579E-02  Total=      0.0070385
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119525E+02         XY=  0.21420345E-01         XZ=  0.46503517E-01
                YY= -0.10161734E+02         YZ=  0.27922894E-01         ZZ= -0.12207577E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21032730E-01 Y=  0.16643773E-10 Z= -0.11473284E-04   Total=     0.02103273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16431322E+01         XY=  0.19873050E+00         XZ=  0.19422982E+00
                YY=  0.12457294E+01         YZ= -0.10840668E-03         ZZ=  0.12454855E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5217724E-02 Y= -0.7881468E-09 Z=  0.5583605E-02  Total=      0.0076421
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110190E+02         XY=  0.26088618E-01         XZ=  0.51492988E-01
                YY= -0.10161734E+02         YZ=  0.27918024E-01         ZZ= -0.12207588E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23857064E-02 Y=  0.11688804E-10 Z= -0.10885476E-04   Total=     0.00238573
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12005680E+01         XY= -0.22541658E-01         XZ= -0.20478050E-02
                YY=  0.12457090E+01         YZ= -0.10285274E-03         ZZ=  0.12454757E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4162713E-02 Y= -0.7858351E-09 Z=  0.5582221E-02  Total=      0.0069634
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120737E+02         XY=  0.20813562E-01         XZ=  0.47495466E-01
                YY= -0.10161736E+02         YZ=  0.27911105E-01         ZZ= -0.12207605E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24970254E-01 Y=  0.55305190E-11 Z= -0.14675296E-04   Total=     0.02497026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77378701E+00         XY= -0.23593471E+00         XZ= -0.19823860E+00
                YY=  0.12457096E+01         YZ= -0.13866140E-03         ZZ=  0.12454129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1515499E-02 Y= -0.7822231E-09 Z=  0.5580252E-02  Total=      0.0057824
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147208E+02         XY=  0.75774913E-02         XZ=  0.36006801E-01
                YY= -0.10161736E+02         YZ=  0.27901257E-01         ZZ= -0.12207626E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38097504E-01 Y=  0.91332255E-12 Z= -0.17663610E-04   Total=     0.03809751
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52573929E+00         XY= -0.35996925E+00         XZ= -0.31940484E+00
                YY=  0.12457287E+01         YZ= -0.16689692E-03         ZZ=  0.12453812E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1718356E-02 Y= -0.7813562E-09 Z=  0.5578324E-02  Total=      0.0058370
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179551E+02         XY= -0.85917838E-02         XZ=  0.21390580E-01
                YY= -0.10161734E+02         YZ=  0.27891617E-01         ZZ= -0.12207643E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36725827E-01 Y= -0.35843690E-13 Z= -0.15760675E-04   Total=     0.03672583
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55166656E+00         XY= -0.34700878E+00         XZ= -0.31902570E+00
                YY=  0.12457383E+01         YZ= -0.14891679E-03         ZZ=  0.12454220E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4306158E-02 Y= -0.7821508E-09 Z=  0.5577006E-02  Total=      0.0070460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205435E+02         XY= -0.21530794E-01         XZ=  0.92174159E-02
                YY= -0.10161730E+02         YZ=  0.27885030E-01         ZZ= -0.12207653E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21331513E-01 Y=  0.32243109E-11 Z= -0.11612912E-04   Total=     0.02133152
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84255762E+00         XY= -0.20155359E+00         XZ= -0.19688551E+00
                YY=  0.12457234E+01         YZ= -0.10972609E-03         ZZ=  0.12454768E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5257966E-02 Y= -0.7843181E-09 Z=  0.5576023E-02  Total=      0.0076641
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214955E+02         XY= -0.26289833E-01         XZ=  0.41386875E-02
                YY= -0.10161730E+02         YZ=  0.27880115E-01         ZZ= -0.12207663E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22550130E-02 Y=  0.93667645E-11 Z= -0.10972341E-04   Total=     0.00225504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12882582E+01         XY=  0.21306785E-01         XZ=  0.72434637E-03
                YY=  0.12457028E+01         YZ= -0.10367351E-03         ZZ=  0.12454676E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4205284E-02 Y= -0.7839569E-09 Z=  0.5574633E-02  Total=      0.0069829
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204425E+02         XY= -0.21026422E-01         XZ=  0.81091066E-02
                YY= -0.10161732E+02         YZ=  0.27873163E-01         ZZ= -0.12207681E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25057310E-01 Y=  0.15742810E-10 Z= -0.14769225E-04   Total=     0.02505731
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17191642E+01         XY=  0.23675727E+00         XZ=  0.19858846E+00
                YY=  0.12457032E+01         YZ= -0.13954882E-03         ZZ=  0.12454046E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1543694E-02 Y= -0.7800559E-09 Z=  0.5572649E-02  Total=      0.0057825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177808E+02         XY= -0.77184739E-02         XZ=  0.19636004E-01
                YY= -0.10161732E+02         YZ=  0.27863243E-01         ZZ= -0.12207702E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38369182E-01 Y=  0.19530706E-10 Z= -0.17813247E-04   Total=     0.03836919
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19707436E+01         XY=  0.36253623E+00         XZ=  0.32120324E+00
                YY=  0.12457225E+01         YZ= -0.16831062E-03         ZZ=  0.12453721E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1715767E-02 Y= -0.7760104E-09 Z=  0.5570700E-02  Total=      0.0058289
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145218E+02         XY=  0.85788312E-02         XZ=  0.34339967E-01
                YY= -0.10161730E+02         YZ=  0.27853500E-01         ZZ= -0.12207720E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37078807E-01 Y=  0.18980033E-10 Z= -0.15936281E-04   Total=     0.03707881
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19463657E+01         XY=  0.35034395E+00         XZ=  0.32155330E+00
                YY=  0.12457324E+01         YZ= -0.15057587E-03         ZZ=  0.12454127E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4330662E-02 Y= -0.7742766E-09 Z=  0.5569366E-02  Total=      0.0070550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119075E+02         XY=  0.21653307E-01         XZ=  0.46615324E-01
                YY= -0.10161727E+02         YZ=  0.27846826E-01         ZZ= -0.12207730E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21631558E-01 Y=  0.14198475E-10 Z= -0.11747118E-04   Total=     0.02163156
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16544356E+01         XY=  0.20438860E+00         XZ=  0.19910969E+00
                YY=  0.12457175E+01         YZ= -0.11099405E-03         ZZ=  0.12454681E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5300742E-02 Y= -0.7742766E-09 Z=  0.5568374E-02  Total=      0.0076880
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109376E+02         XY=  0.26503706E-01         XZ=  0.51764022E-01
                YY= -0.10161726E+02         YZ=  0.27841869E-01         ZZ= -0.12207740E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21220303E-02 Y=  0.71191855E-11 Z= -0.11052927E-04   Total=     0.00212206
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12055373E+01         XY= -0.20050280E-01         XZ=  0.20006241E-03
                YY=  0.12456966E+01         YZ= -0.10443496E-03         ZZ=  0.12454596E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4250557E-02 Y= -0.7726873E-09 Z=  0.5566978E-02  Total=      0.0070042
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119875E+02         XY=  0.21252783E-01         XZ=  0.47793511E-01
                YY= -0.10161728E+02         YZ=  0.27834886E-01         ZZ= -0.12207757E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25142025E-01 Y=  0.65604367E-12 Z= -0.14856556E-04   Total=     0.02514203
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77052733E+00         XY= -0.23755771E+00         XZ= -0.19947926E+00
                YY=  0.12456969E+01         YZ= -0.14037409E-03         ZZ=  0.12453963E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1574736E-02 Y= -0.7710980E-09 Z=  0.5564980E-02  Total=      0.0057835
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146632E+02         XY=  0.78736759E-02         XZ=  0.36189283E-01
                YY= -0.10161728E+02         YZ=  0.27824899E-01         ZZ= -0.12207779E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38639489E-01 Y= -0.25813920E-11 Z= -0.17958233E-04   Total=     0.03863949
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51548399E+00         XY= -0.36509026E+00         XZ= -0.32366357E+00
                YY=  0.12457162E+01         YZ= -0.16968072E-03         ZZ=  0.12453629E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1710282E-02 Y= -0.7705201E-09 Z=  0.5563011E-02  Total=      0.0058200
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179486E+02         XY= -0.85514103E-02         XZ=  0.21358877E-01
                YY= -0.10161726E+02         YZ=  0.27815054E-01         ZZ= -0.12207797E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37432062E-01 Y= -0.14382321E-11 Z= -0.16111101E-04   Total=     0.03743207
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53830788E+00         XY= -0.35368173E+00         XZ= -0.32468335E+00
                YY=  0.12457263E+01         YZ= -0.15222784E-03         ZZ=  0.12454033E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4352348E-02 Y= -0.7710258E-09 Z=  0.5561659E-02  Total=      0.0070622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205913E+02         XY= -0.21761742E-01         XZ=  0.89544249E-02
                YY= -0.10161723E+02         YZ=  0.27808292E-01         ZZ= -0.12207807E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21933589E-01 Y=  0.32873142E-11 Z= -0.11883427E-04   Total=     0.02193359
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83116714E+00         XY= -0.20724238E+00         XZ= -0.20179073E+00
                YY=  0.12457114E+01         YZ= -0.11228208E-03         ZZ=  0.12454593E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5340893E-02 Y= -0.7719649E-09 Z=  0.5560659E-02  Total=      0.0077101
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215800E+02         XY= -0.26704465E-01         XZ=  0.37152624E-02
                YY= -0.10161722E+02         YZ=  0.27803293E-01         ZZ= -0.12207817E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19859329E-02 Y=  0.92171253E-11 Z= -0.11135061E-04   Total=     0.00198596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12831598E+01         XY=  0.18764347E-01         XZ= -0.15643028E-02
                YY=  0.12456903E+01         YZ= -0.10521099E-03         ZZ=  0.12454515E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4293456E-02 Y= -0.7710980E-09 Z=  0.5559256E-02  Total=      0.0070242
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205323E+02         XY= -0.21467279E-01         XZ=  0.76569890E-02
                YY= -0.10161724E+02         YZ=  0.27796280E-01         ZZ= -0.12207835E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25223514E-01 Y=  0.13469188E-10 Z= -0.14942112E-04   Total=     0.02522352
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17222911E+01         XY=  0.23832766E+00         XZ=  0.19978435E+00
                YY=  0.12456904E+01         YZ= -0.14118237E-03         ZZ=  0.12453879E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1603630E-02 Y= -0.7682084E-09 Z=  0.5557246E-02  Total=      0.0057840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178424E+02         XY= -0.80181513E-02         XZ=  0.19297673E-01
                YY= -0.10161724E+02         YZ=  0.27786228E-01         ZZ= -0.12207857E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38907533E-01 Y=  0.13948085E-10 Z= -0.18098239E-04   Total=     0.03890754
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19809036E+01         XY=  0.36762291E+00         XZ=  0.32542682E+00
                YY=  0.12457099E+01         YZ= -0.17100345E-03         ZZ=  0.12453538E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1706811E-02 Y= -0.7637294E-09 Z=  0.5555257E-02  Total=      0.0058115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145323E+02         XY=  0.85340509E-02         XZ=  0.34214523E-01
                YY= -0.10161722E+02         YZ=  0.27776283E-01         ZZ= -0.12207874E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37784742E-01 Y=  0.10266993E-10 Z= -0.16279628E-04   Total=     0.03778475
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19596930E+01         XY=  0.35701407E+00         XZ=  0.32719789E+00
                YY=  0.12457203E+01         YZ= -0.15382009E-03         ZZ=  0.12453939E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4376047E-02 Y= -0.7617789E-09 Z=  0.5553888E-02  Total=      0.0070707
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118637E+02         XY=  0.21880234E-01         XZ=  0.46720898E-01
                YY= -0.10161719E+02         YZ=  0.27769437E-01         ZZ= -0.12207885E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22236831E-01 Y=  0.38941026E-11 Z= -0.12013297E-04   Total=     0.02223683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16658606E+01         XY=  0.21010760E+00         XZ=  0.20402937E+00
                YY=  0.12457054E+01         YZ= -0.11350916E-03         ZZ=  0.12454506E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5383176E-02 Y= -0.7619957E-09 Z=  0.5552880E-02  Total=      0.0077339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108568E+02         XY=  0.26915876E-01         XZ=  0.52030889E-01
                YY= -0.10161718E+02         YZ=  0.27764398E-01         ZZ= -0.12207895E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18474098E-02 Y= -0.25318993E-11 Z= -0.11210533E-04   Total=     0.00184744
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12107133E+01         XY= -0.17455493E-01         XZ=  0.25243309E-02
                YY=  0.12456840E+01         YZ= -0.10592420E-03         ZZ=  0.12454434E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4338668E-02 Y= -0.7599729E-09 Z=  0.5551472E-02  Total=      0.0070458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119010E+02         XY=  0.21693339E-01         XZ=  0.48090558E-01
                YY= -0.10161720E+02         YZ=  0.27757359E-01         ZZ= -0.12207912E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25302395E-01 Y= -0.63938563E-11 Z= -0.15021190E-04   Total=     0.02530240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76748289E+00         XY= -0.23907298E+00         XZ= -0.20063482E+00
                YY=  0.12456839E+01         YZ= -0.14192972E-03         ZZ=  0.12453797E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1635002E-02 Y= -0.7582392E-09 Z=  0.5549449E-02  Total=      0.0057853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146046E+02         XY=  0.81750086E-02         XZ=  0.36373868E-01
                YY= -0.10161720E+02         YZ=  0.27747244E-01         ZZ= -0.12207935E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39173894E-01 Y= -0.62508546E-11 Z= -0.18233759E-04   Total=     0.03917390
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50537169E+00         XY= -0.37013966E+00         XZ= -0.32786032E+00
                YY=  0.12457035E+01         YZ= -0.17228410E-03         ZZ=  0.12453448E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1700791E-02 Y= -0.7569388E-09 Z=  0.5547441E-02  Total=      0.0058023
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179408E+02         XY= -0.85039586E-02         XZ=  0.21331144E-01
                YY= -0.10161718E+02         YZ=  0.27737201E-01         ZZ= -0.12207953E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38137431E-01 Y= -0.24352331E-11 Z= -0.16447135E-04   Total=     0.03813743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52496532E+00         XY= -0.36034650E+00         XZ= -0.33032582E+00
                YY=  0.12457141E+01         YZ= -0.15540291E-03         ZZ=  0.12453845E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4397262E-02 Y= -0.7572278E-09 Z=  0.5546055E-02  Total=      0.0070778
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206378E+02         XY= -0.21986313E-01         XZ=  0.86953092E-02
                YY= -0.10161715E+02         YZ=  0.27730271E-01         ZZ= -0.12207963E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22541913E-01 Y=  0.31619666E-11 Z= -0.12144464E-04   Total=     0.02254192
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81965839E+00         XY= -0.21299021E+00         XZ= -0.20673396E+00
                YY=  0.12456992E+01         YZ= -0.11474852E-03         ZZ=  0.12454419E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5423163E-02 Y= -0.7586726E-09 Z=  0.5545039E-02  Total=      0.0077562
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216639E+02         XY= -0.27115817E-01         XZ=  0.32936656E-02
                YY= -0.10161714E+02         YZ=  0.27725192E-01         ZZ= -0.12207974E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17057598E-02 Y=  0.79939694E-11 Z= -0.11286334E-04   Total=     0.00170580
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12778516E+01         XY=  0.16117094E-01         XZ= -0.39306145E-02
                YY=  0.12456776E+01         YZ= -0.10664033E-03         ZZ=  0.12454354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4381843E-02 Y= -0.7578779E-09 Z=  0.5543626E-02  Total=      0.0070663
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206224E+02         XY= -0.21909219E-01         XZ=  0.72034412E-02
                YY= -0.10161715E+02         YZ=  0.27718127E-01         ZZ= -0.12207991E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25377880E-01 Y=  0.10020484E-10 Z= -0.15097303E-04   Total=     0.02537788
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17251943E+01         XY=  0.23978621E+00         XZ=  0.20089141E+00
                YY=  0.12456773E+01         YZ= -0.14264875E-03         ZZ=  0.12453714E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1664583E-02 Y= -0.7558552E-09 Z=  0.5541591E-02  Total=      0.0057862
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179050E+02         XY= -0.83229166E-02         XZ=  0.18954639E-01
                YY= -0.10161716E+02         YZ=  0.27707952E-01         ZZ= -0.12208013E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39437698E-01 Y=  0.85946051E-11 Z= -0.18363733E-04   Total=     0.03943770
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19909086E+01         XY=  0.37263224E+00         XZ=  0.32958315E+00
                YY=  0.12456971E+01         YZ= -0.17351205E-03         ZZ=  0.12453357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1696404E-02 Y= -0.7526766E-09 Z=  0.5539563E-02  Total=      0.0057935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145444E+02         XY=  0.84820202E-02         XZ=  0.34082296E-01
                YY= -0.10161714E+02         YZ=  0.27697815E-01         ZZ= -0.12208032E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38489177E-01 Y=  0.46796360E-11 Z= -0.16608895E-04   Total=     0.03848918
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19729918E+01         XY=  0.36367002E+00         XZ=  0.33282153E+00
                YY=  0.12457079E+01         YZ= -0.15693127E-03         ZZ=  0.12453752E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4420079E-02 Y= -0.7518097E-09 Z=  0.5538161E-02  Total=      0.0070858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118213E+02         XY=  0.22100392E-01         XZ=  0.46819564E-01
                YY= -0.10161710E+02         YZ=  0.27690802E-01         ZZ= -0.12208042E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22847813E-01 Y=  0.32812191E-12 Z= -0.12270900E-04   Total=     0.02284782
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16773933E+01         XY=  0.21588055E+00         XZ=  0.20898186E+00
                YY=  0.12456930E+01         YZ= -0.11594319E-03         ZZ=  0.12454331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5464842E-02 Y= -0.7530378E-09 Z=  0.5537137E-02  Total=      0.0077797
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107768E+02         XY=  0.27324206E-01         XZ=  0.52292713E-01
                YY= -0.10161710E+02         YZ=  0.27685684E-01         ZZ= -0.12208053E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15620620E-02 Y= -0.23098108E-11 Z= -0.11357795E-04   Total=     0.00156210
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12160918E+01         XY= -0.14759347E-01         XZ=  0.49224913E-02
                YY=  0.12456712E+01         YZ= -0.10731562E-03         ZZ=  0.12454273E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4426864E-02 Y= -0.7515930E-09 Z=  0.5535720E-02  Total=      0.0070881
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118145E+02         XY=  0.22134317E-01         XZ=  0.48385708E-01
                YY= -0.10161711E+02         YZ=  0.27678596E-01         ZZ= -0.12208070E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25451099E-01 Y= -0.19754207E-11 Z= -0.15168975E-04   Total=     0.02545110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76465870E+00         XY= -0.24047803E+00         XZ= -0.20170351E+00
                YY=  0.12456707E+01         YZ= -0.14332605E-03         ZZ=  0.12453632E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1696148E-02 Y= -0.7489923E-09 Z=  0.5533673E-02  Total=      0.0057878
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145451E+02         XY=  0.84807389E-02         XZ=  0.36559790E-01
                YY= -0.10161712E+02         YZ=  0.27668364E-01         ZZ= -0.12208093E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39700118E-01 Y=  0.11680786E-11 Z= -0.18490244E-04   Total=     0.03970012
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49541376E+00         XY= -0.37511176E+00         XZ= -0.33199012E+00
                YY=  0.12456906E+01         YZ= -0.17470746E-03         ZZ=  0.12453267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1689984E-02 Y= -0.7480532E-09 Z=  0.5531627E-02  Total=      0.0057840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179316E+02         XY= -0.84499228E-02         XZ=  0.21306845E-01
                YY= -0.10161710E+02         YZ=  0.27658134E-01         ZZ= -0.12208111E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38841192E-01 Y=  0.56860706E-11 Z= -0.16769472E-04   Total=     0.03884120
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51165297E+00         XY= -0.36699607E+00         XZ= -0.33594645E+00
                YY=  0.12457016E+01         YZ= -0.15844849E-03         ZZ=  0.12453658E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4440944E-02 Y= -0.7489923E-09 Z=  0.5530208E-02  Total=      0.0070926
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206832E+02         XY= -0.22204721E-01         XZ=  0.84398085E-02
                YY= -0.10161706E+02         YZ=  0.27651039E-01         ZZ= -0.12208122E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23155774E-01 Y=  0.96031701E-11 Z= -0.12397642E-04   Total=     0.02315578
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80804483E+00         XY= -0.21879035E+00         XZ= -0.21170822E+00
                YY=  0.12456867E+01         YZ= -0.11714065E-03         ZZ=  0.12454243E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5504771E-02 Y= -0.7501482E-09 Z=  0.5529177E-02  Total=      0.0078022
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217472E+02         XY= -0.27523857E-01         XZ=  0.28739107E-02
                YY= -0.10161705E+02         YZ=  0.27645882E-01         ZZ= -0.12208132E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14150611E-02 Y=  0.11345088E-10 Z= -0.11428329E-04   Total=     0.00141511
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12723443E+01         XY=  0.13370390E-01         XZ= -0.63682641E-02
                YY=  0.12456647E+01         YZ= -0.10798196E-03         ZZ=  0.12454192E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4470403E-02 Y= -0.7480532E-09 Z=  0.5527755E-02  Total=      0.0071092
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207126E+02         XY= -0.22352015E-01         XZ=  0.67487220E-02
                YY= -0.10161707E+02         YZ=  0.27638772E-01         ZZ= -0.12208150E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25520802E-01 Y=  0.10442140E-10 Z= -0.15236631E-04   Total=     0.02552081
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17278809E+01         XY=  0.24113664E+00         XZ=  0.20191485E+00
                YY=  0.12456640E+01         YZ= -0.14396520E-03         ZZ=  0.12453550E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1726482E-02 Y= -0.7442967E-09 Z=  0.5525698E-02  Total=      0.0057891
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179686E+02         XY= -0.86324101E-02         XZ=  0.18607366E-01
                YY= -0.10161708E+02         YZ=  0.27628487E-01         ZZ= -0.12208172E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39959932E-01 Y=  0.76735533E-11 Z= -0.18610647E-04   Total=     0.03995994
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20007636E+01         XY=  0.37756664E+00         XZ=  0.33367629E+00
                YY=  0.12456840E+01         YZ= -0.17584505E-03         ZZ=  0.12453177E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1684639E-02 Y= -0.7406124E-09 Z=  0.5523634E-02  Total=      0.0057748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145578E+02         XY=  0.84231942E-02         XZ=  0.33943913E-01
                YY= -0.10161706E+02         YZ=  0.27618166E-01         ZZ= -0.12208191E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39192293E-01 Y=  0.46112085E-11 Z= -0.16924320E-04   Total=     0.03919230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19862654E+01         XY=  0.37031350E+00         XZ=  0.33842731E+00
                YY=  0.12456952E+01         YZ= -0.15991160E-03         ZZ=  0.12453565E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4462863E-02 Y= -0.7398178E-09 Z=  0.5522199E-02  Total=      0.0071001
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117802E+02         XY=  0.22314311E-01         XZ=  0.46912072E-01
                YY= -0.10161702E+02         YZ=  0.27610991E-01         ZZ= -0.12208202E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23464661E-01 Y=  0.28095636E-11 Z= -0.12520107E-04   Total=     0.02346466
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16890367E+01         XY=  0.22170891E+00         XZ=  0.21396934E+00
                YY=  0.12456804E+01         YZ= -0.11829784E-03         ZZ=  0.12454156E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5545858E-02 Y= -0.7413348E-09 Z=  0.5521160E-02  Total=      0.0078256
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106974E+02         XY=  0.27729288E-01         XZ=  0.52550322E-01
                YY= -0.10161701E+02         YZ=  0.27605797E-01         ZZ= -0.12208213E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12658458E-02 Y=  0.30472923E-11 Z= -0.11495059E-04   Total=     0.00126590
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12216756E+01         XY= -0.11960510E-01         XZ=  0.73956946E-02
                YY=  0.12456581E+01         YZ= -0.10861253E-03         ZZ=  0.12454112E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4515270E-02 Y= -0.7403234E-09 Z=  0.5519734E-02  Total=      0.0071313
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117278E+02         XY=  0.22576350E-01         XZ=  0.48679809E-01
                YY= -0.10161703E+02         YZ=  0.27598667E-01         ZZ= -0.12208230E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25588049E-01 Y=  0.49848395E-11 Z= -0.15300077E-04   Total=     0.02558805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76205644E+00         XY= -0.24177203E+00         XZ= -0.20268548E+00
                YY=  0.12456573E+01         YZ= -0.14456472E-03         ZZ=  0.12453468E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1758300E-02 Y= -0.7371448E-09 Z=  0.5517667E-02  Total=      0.0057911
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144846E+02         XY=  0.87914992E-02         XZ=  0.36747845E-01
                YY= -0.10161704E+02         YZ=  0.27588331E-01         ZZ= -0.12208253E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40218193E-01 Y=  0.73910309E-11 Z= -0.18727361E-04   Total=     0.04021820
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48560962E+00         XY= -0.38000685E+00         XZ= -0.33605479E+00
                YY=  0.12456773E+01         YZ= -0.17694785E-03         ZZ=  0.12453088E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1677747E-02 Y= -0.7349776E-09 Z=  0.5515585E-02  Total=      0.0057651
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179211E+02         XY= -0.83887364E-02         XZ=  0.21286646E-01
                YY= -0.10161701E+02         YZ=  0.27577921E-01         ZZ= -0.12208272E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39543557E-01 Y=  0.88079988E-11 Z= -0.17077505E-04   Total=     0.03954356
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49836677E+00         XY= -0.37363247E+00         XZ= -0.34154885E+00
                YY=  0.12456888E+01         YZ= -0.16135895E-03         ZZ=  0.12453471E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4483309E-02 Y= -0.7351221E-09 Z=  0.5514134E-02  Total=      0.0071067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207272E+02         XY= -0.22416546E-01         XZ=  0.81883848E-02
                YY= -0.10161698E+02         YZ=  0.27570667E-01         ZZ= -0.12208283E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23775598E-01 Y=  0.83125433E-11 Z= -0.12642532E-04   Total=     0.02377560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79631840E+00         XY= -0.22464684E+00         XZ= -0.21671882E+00
                YY=  0.12456740E+01         YZ= -0.11945453E-03         ZZ=  0.12454067E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5585677E-02 Y= -0.7349054E-09 Z=  0.5513088E-02  Total=      0.0078482
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218298E+02         XY= -0.27928385E-01         XZ=  0.24561998E-02
                YY= -0.10161697E+02         YZ=  0.27565436E-01         ZZ= -0.12208293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11132311E-02 Y=  0.59897877E-11 Z= -0.11560917E-04   Total=     0.00111329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12666266E+01         XY=  0.10518510E-01         XZ= -0.88836623E-02
                YY=  0.12456515E+01         YZ= -0.10923477E-03         ZZ=  0.12454030E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4559147E-02 Y= -0.7320880E-09 Z=  0.5511658E-02  Total=      0.0071529
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208031E+02         XY= -0.22795736E-01         XZ=  0.62927527E-02
                YY= -0.10161699E+02         YZ=  0.27558288E-01         ZZ= -0.12208311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25651592E-01 Y=  0.28836587E-11 Z= -0.15359966E-04   Total=     0.02565160
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17303381E+01         XY=  0.24237242E+00         XZ=  0.20284814E+00
                YY=  0.12456505E+01         YZ= -0.14513061E-03         ZZ=  0.12453386E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1789393E-02 Y= -0.7284760E-09 Z=  0.5509581E-02  Total=      0.0057929
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180332E+02         XY= -0.89469687E-02         XZ=  0.18255520E-01
                YY= -0.10161699E+02         YZ=  0.27547903E-01         ZZ= -0.12208334E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40473605E-01 Y=  0.45452513E-12 Z= -0.18838637E-04   Total=     0.04047361
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20104566E+01         XY=  0.38242014E+00         XZ=  0.33770078E+00
                YY=  0.12456706E+01         YZ= -0.17799931E-03         ZZ=  0.12452998E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1671405E-02 Y= -0.7258753E-09 Z=  0.5507482E-02  Total=      0.0057555
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145728E+02         XY=  0.83570243E-02         XZ=  0.33798858E-01
                YY= -0.10161697E+02         YZ=  0.27537408E-01         ZZ= -0.12208353E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39893666E-01 Y= -0.18334137E-12 Z= -0.17225590E-04   Total=     0.03989367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19995059E+01         XY=  0.37694052E+00         XZ=  0.34401197E+00
                YY=  0.12456823E+01         YZ= -0.16275823E-03         ZZ=  0.12453378E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4504268E-02 Y= -0.7246472E-09 Z=  0.5506016E-02  Total=      0.0071137
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117405E+02         XY=  0.22521336E-01         XZ=  0.46997831E-01
                YY= -0.10161694E+02         YZ=  0.27530076E-01         ZZ= -0.12208364E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24087276E-01 Y=  0.11450332E-11 Z= -0.12761012E-04   Total=     0.02408728
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17007888E+01         XY=  0.22759178E+00         XZ=  0.21899155E+00
                YY=  0.12456676E+01         YZ= -0.12057407E-03         ZZ=  0.12453979E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5626100E-02 Y= -0.7245750E-09 Z=  0.5504962E-02  Total=      0.0078713
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106189E+02         XY=  0.28130501E-01         XZ=  0.52803180E-01
                YY= -0.10161693E+02         YZ=  0.27524809E-01         ZZ= -0.12208375E+02
  Expectation value of momentum operator [a. u.]
    X= -0.95848556E-03 Y=  0.35587900E-11 Z= -0.11622726E-04   Total=     0.00095856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12274697E+01         XY= -0.90563760E-02         XZ=  0.99469083E-02
                YY=  0.12456448E+01         YZ= -0.10981880E-03         ZZ=  0.12453950E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4603798E-02 Y= -0.7224077E-09 Z=  0.5503530E-02  Total=      0.0071752
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116410E+02         XY=  0.23018986E-01         XZ=  0.48972501E-01
                YY= -0.10161694E+02         YZ=  0.27517646E-01         ZZ= -0.12208392E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25712638E-01 Y=  0.55509880E-11 Z= -0.15414608E-04   Total=     0.02571264
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75968758E+00         XY= -0.24294922E+00         XZ= -0.20357501E+00
                YY=  0.12456436E+01         YZ= -0.14564688E-03         ZZ=  0.12453305E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1821423E-02 Y= -0.7194459E-09 Z=  0.5501444E-02  Total=      0.0057951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144232E+02         XY=  0.91071142E-02         XZ=  0.36937942E-01
                YY= -0.10161695E+02         YZ=  0.27507216E-01         ZZ= -0.12208415E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40727307E-01 Y=  0.57596193E-11 Z= -0.18944456E-04   Total=     0.04072731
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47597461E+00         XY= -0.38481728E+00         XZ= -0.34004689E+00
                YY=  0.12456639E+01         YZ= -0.17899911E-03         ZZ=  0.12452909E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1664050E-02 Y= -0.7183622E-09 Z=  0.5499328E-02  Total=      0.0057456
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179091E+02         XY= -0.83202528E-02         XZ=  0.21270766E-01
                YY= -0.10161693E+02         YZ=  0.27496638E-01         ZZ= -0.12208435E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40243695E-01 Y=  0.36987177E-11 Z= -0.17369961E-04   Total=     0.04024370
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48512246E+00         XY= -0.38024781E+00         XZ= -0.34712541E+00
                YY=  0.12456758E+01         YZ= -0.16412231E-03         ZZ=  0.12453285E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4524268E-02 Y= -0.7200238E-09 Z=  0.5497846E-02  Total=      0.0071201
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207699E+02         XY= -0.22621343E-01         XZ=  0.79415481E-02
                YY= -0.10161690E+02         YZ=  0.27489228E-01         ZZ= -0.12208446E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24400720E-01 Y=  0.74109550E-13 Z= -0.12877764E-04   Total=     0.02440072
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78449167E+00         XY= -0.23055339E+00         XZ= -0.22175945E+00
                YY=  0.12456611E+01         YZ= -0.12167723E-03         ZZ=  0.12453891E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5665749E-02 Y= -0.7223355E-09 Z=  0.5496786E-02  Total=      0.0078940
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219116E+02         XY= -0.28328745E-01         XZ=  0.20412614E-02
                YY= -0.10161689E+02         YZ=  0.27483927E-01         ZZ= -0.12208457E+02
  Expectation value of momentum operator [a. u.]
    X=  0.80062087E-03 Y= -0.34975326E-11 Z= -0.11682807E-04   Total=     0.00080071
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12607049E+01         XY=  0.75647709E-02         XZ= -0.11473052E-01
                YY=  0.12456381E+01         YZ= -0.11038655E-03         ZZ=  0.12453869E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4647929E-02 Y= -0.7221188E-09 Z=  0.5495350E-02  Total=      0.0071974
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208936E+02         XY= -0.23239645E-01         XZ=  0.58363709E-02
                YY= -0.10161690E+02         YZ=  0.27476750E-01         ZZ= -0.12208474E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25770223E-01 Y= -0.52544863E-11 Z= -0.15465713E-04   Total=     0.02577023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17325654E+01         XY=  0.24349332E+00         XZ=  0.20369190E+00
                YY=  0.12456367E+01         YZ= -0.14612984E-03         ZZ=  0.12453224E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1853181E-02 Y= -0.7198071E-09 Z=  0.5493256E-02  Total=      0.0057974
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180987E+02         XY= -0.92659074E-02         XZ=  0.17899927E-01
                YY= -0.10161691E+02         YZ=  0.27466277E-01         ZZ= -0.12208497E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40978350E-01 Y= -0.41797991E-11 Z= -0.19045426E-04   Total=     0.04097835
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20199806E+01         XY=  0.38718929E+00         XZ=  0.34165425E+00
                YY=  0.12456570E+01         YZ= -0.17995322E-03         ZZ=  0.12452821E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1656807E-02 Y= -0.7170619E-09 Z=  0.5491124E-02  Total=      0.0057356
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145891E+02         XY=  0.82840333E-02         XZ=  0.33647836E-01
                YY= -0.10161689E+02         YZ=  0.27455619E-01         ZZ= -0.12208517E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40592710E-01 Y= -0.57670169E-12 Z= -0.17509997E-04   Total=     0.04059271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20127023E+01         XY=  0.38354552E+00         XZ=  0.34957092E+00
                YY=  0.12456692E+01         YZ= -0.16544549E-03         ZZ=  0.12453192E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4544354E-02 Y= -0.7162673E-09 Z=  0.5489627E-02  Total=      0.0071265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117021E+02         XY=  0.22721770E-01         XZ=  0.47077357E-01
                YY= -0.10161685E+02         YZ=  0.27448134E-01         ZZ= -0.12208529E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24715013E-01 Y=  0.39781509E-11 Z= -0.12991200E-04   Total=     0.02471502
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17126377E+01         XY=  0.23352303E+00         XZ=  0.22404289E+00
                YY=  0.12456545E+01         YZ= -0.12274900E-03         ZZ=  0.12453804E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5705585E-02 Y= -0.7172064E-09 Z=  0.5488560E-02  Total=      0.0079169
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105411E+02         XY=  0.28527923E-01         XZ=  0.53051584E-01
                YY= -0.10161684E+02         YZ=  0.27442800E-01         ZZ= -0.12208539E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64053640E-03 Y=  0.73157514E-11 Z= -0.11739152E-04   Total=     0.00064064
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12334639E+01         XY= -0.60521918E-02         XZ=  0.12570719E-01
                YY=  0.12456314E+01         YZ= -0.11091884E-03         ZZ=  0.12453789E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4692426E-02 Y= -0.7169174E-09 Z=  0.5487122E-02  Total=      0.0072199
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115541E+02         XY=  0.23462126E-01         XZ=  0.49263880E-01
                YY= -0.10161686E+02         YZ=  0.27435610E-01         ZZ= -0.12208556E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25825235E-01 Y=  0.76915956E-11 Z= -0.15511555E-04   Total=     0.02582524
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75754522E+00         XY= -0.24401310E+00         XZ= -0.20437641E+00
                YY=  0.12456298E+01         YZ= -0.14656288E-03         ZZ=  0.12453144E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1885475E-02 Y= -0.7146057E-09 Z=  0.5485020E-02  Total=      0.0058000
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143609E+02         XY=  0.94273714E-02         XZ=  0.37130015E-01
                YY= -0.10161687E+02         YZ=  0.27425098E-01         ZZ= -0.12208580E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41227624E-01 Y=  0.46609218E-11 Z= -0.19140812E-04   Total=     0.04122763
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46650567E+00         XY= -0.38954459E+00         XZ= -0.34396926E+00
                YY=  0.12456501E+01         YZ= -0.18085442E-03         ZZ=  0.12452733E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1648946E-02 Y= -0.7130164E-09 Z=  0.5482873E-02  Total=      0.0057255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178957E+02         XY= -0.82447339E-02         XZ=  0.21259033E-01
                YY= -0.10161684E+02         YZ=  0.27414362E-01         ZZ= -0.12208599E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40941623E-01 Y= -0.62395639E-12 Z= -0.17646455E-04   Total=     0.04094163
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47191976E+00         XY= -0.38684227E+00         XZ= -0.35267760E+00
                YY=  0.12456625E+01         YZ= -0.16673483E-03         ZZ=  0.12453100E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4563877E-02 Y= -0.7146057E-09 Z=  0.5481361E-02  Total=      0.0071326
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208112E+02         XY= -0.22819386E-01         XZ=  0.76990641E-02
                YY= -0.10161681E+02         YZ=  0.27406803E-01         ZZ= -0.12208611E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25031107E-01 Y= -0.58685244E-11 Z= -0.13103578E-04   Total=     0.02503111
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77256536E+00         XY= -0.23650968E+00         XZ= -0.22683075E+00
                YY=  0.12456480E+01         YZ= -0.12381091E-03         ZZ=  0.12453716E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5745043E-02 Y= -0.7169897E-09 Z=  0.5480287E-02  Total=      0.0079397
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219926E+02         XY= -0.28725219E-01         XZ=  0.16288272E-02
                YY= -0.10161680E+02         YZ=  0.27401436E-01         ZZ= -0.12208622E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47722862E-03 Y= -0.86665398E-11 Z= -0.11794878E-04   Total=     0.00047737
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12545794E+01         XY=  0.45091569E-02         XZ= -0.14136708E-01
                YY=  0.12456246E+01         YZ= -0.11144551E-03         ZZ=  0.12453708E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4736809E-02 Y= -0.7180010E-09 Z=  0.5478848E-02  Total=      0.0072426
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209842E+02         XY= -0.23684048E-01         XZ=  0.53792890E-02
                YY= -0.10161681E+02         YZ=  0.27394236E-01         ZZ= -0.12208639E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25876620E-01 Y= -0.76415203E-11 Z= -0.15554960E-04   Total=     0.02587662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17345613E+01         XY=  0.24449862E+00         XZ=  0.20444590E+00
                YY=  0.12456228E+01         YZ= -0.14697312E-03         ZZ=  0.12453063E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1917915E-02 Y= -0.7163395E-09 Z=  0.5476738E-02  Total=      0.0058028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181652E+02         XY= -0.95895751E-02         XZ=  0.17540292E-01
                YY= -0.10161682E+02         YZ=  0.27383687E-01         ZZ= -0.12208662E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41474045E-01 Y= -0.31592900E-11 Z= -0.19231953E-04   Total=     0.04147405
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20293335E+01         XY=  0.39187294E+00         XZ=  0.34553664E+00
                YY=  0.12456432E+01         YZ= -0.18171564E-03         ZZ=  0.12452645E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1640767E-02 Y= -0.7123663E-09 Z=  0.5474575E-02  Total=      0.0057152
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146068E+02         XY=  0.82038320E-02         XZ=  0.33490567E-01
                YY= -0.10161680E+02         YZ=  0.27372875E-01         ZZ= -0.12208682E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41289345E-01 Y=  0.27470253E-11 Z= -0.17778471E-04   Total=     0.04128935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20258529E+01         XY=  0.39012777E+00         XZ=  0.35510473E+00
                YY=  0.12456558E+01         YZ= -0.16798217E-03         ZZ=  0.12453007E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4583044E-02 Y= -0.7114271E-09 Z=  0.5473049E-02  Total=      0.0071385
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116652E+02         XY=  0.22915220E-01         XZ=  0.47150419E-01
                YY= -0.10161677E+02         YZ=  0.27365245E-01         ZZ= -0.12208695E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25347939E-01 Y=  0.72429652E-11 Z= -0.13211931E-04   Total=     0.02534794
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17245844E+01         XY=  0.23950331E+00         XZ=  0.22912505E+00
                YY=  0.12456413E+01         YZ= -0.12483459E-03         ZZ=  0.12453628E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5784246E-02 Y= -0.7131609E-09 Z=  0.5471969E-02  Total=      0.0079624
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104642E+02         XY=  0.28921230E-01         XZ=  0.53295406E-01
                YY= -0.10161676E+02         YZ=  0.27359846E-01         ZZ= -0.12208705E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31171019E-03 Y=  0.79764781E-11 Z= -0.11845802E-04   Total=     0.00031194
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12396635E+01         XY= -0.29452344E-02         XZ=  0.15270307E-01
                YY=  0.12456178E+01         YZ= -0.11192653E-03         ZZ=  0.12453628E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4781119E-02 Y= -0.7120051E-09 Z=  0.5470528E-02  Total=      0.0072654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114671E+02         XY=  0.23905594E-01         XZ=  0.49553970E-01
                YY= -0.10161677E+02         YZ=  0.27352638E-01         ZZ= -0.12208723E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25925334E-01 Y=  0.41932100E-11 Z= -0.15591894E-04   Total=     0.02592534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75563890E+00         XY= -0.24495890E+00         XZ= -0.20508519E+00
                YY=  0.12456158E+01         YZ= -0.14732201E-03         ZZ=  0.12452984E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1950462E-02 Y= -0.7086820E-09 Z=  0.5468411E-02  Total=      0.0058058
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142977E+02         XY=  0.97523080E-02         XZ=  0.37324280E-01
                YY= -0.10161678E+02         YZ=  0.27342056E-01         ZZ= -0.12208746E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41718520E-01 Y= -0.28428845E-11 Z= -0.19316329E-04   Total=     0.04171852
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45721461E+00         XY= -0.39418289E+00         XZ= -0.34781686E+00
                YY=  0.12456362E+01         YZ= -0.18251287E-03         ZZ=  0.12452559E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1632383E-02 Y= -0.7063703E-09 Z=  0.5466235E-02  Total=      0.0057048
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178808E+02         XY= -0.81619170E-02         XZ=  0.21251846E-01
                YY= -0.10161676E+02         YZ=  0.27331172E-01         ZZ= -0.12208766E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41636757E-01 Y= -0.10345504E-10 Z= -0.17905906E-04   Total=     0.04163676
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45876969E+00         XY= -0.39341034E+00         XZ= -0.35820104E+00
                YY=  0.12456491E+01         YZ= -0.16918637E-03         ZZ=  0.12452916E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4602047E-02 Y= -0.7079596E-09 Z=  0.5464694E-02  Total=      0.0071443
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208511E+02         XY= -0.23010236E-01         XZ=  0.74614652E-02
                YY= -0.10161673E+02         YZ=  0.27323470E-01         ZZ= -0.12208778E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25666394E-01 Y= -0.15218126E-10 Z= -0.13318492E-04   Total=     0.02566640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76054632E+00         XY= -0.24251228E+00         XZ= -0.23193020E+00
                YY=  0.12456346E+01         YZ= -0.12584163E-03         ZZ=  0.12453540E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5823459E-02 Y= -0.7111382E-09 Z=  0.5463609E-02  Total=      0.0079852
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220728E+02         XY= -0.29117299E-01         XZ=  0.12194730E-02
                YY= -0.10161671E+02         YZ=  0.27318041E-01         ZZ= -0.12208789E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14307387E-03 Y= -0.15446845E-10 Z= -0.11895584E-04   Total=     0.00014357
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12482504E+01         XY=  0.13518520E-02         XZ= -0.16874859E-01
                YY=  0.12456109E+01         YZ= -0.11239710E-03         ZZ=  0.12453548E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4825699E-02 Y= -0.7127275E-09 Z=  0.5462166E-02  Total=      0.0072885
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210748E+02         XY= -0.24128496E-01         XZ=  0.49220211E-02
                YY= -0.10161673E+02         YZ=  0.27310826E-01         ZZ= -0.12208806E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25970441E-01 Y= -0.11036893E-10 Z= -0.15625899E-04   Total=     0.02597045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17363195E+01         XY=  0.24538510E+00         XZ=  0.20510718E+00
                YY=  0.12456087E+01         YZ= -0.14764344E-03         ZZ=  0.12452904E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1983539E-02 Y= -0.7122940E-09 Z=  0.5460043E-02  Total=      0.0058092
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182325E+02         XY= -0.99176987E-02         XZ=  0.17176978E-01
                YY= -0.10161674E+02         YZ=  0.27300214E-01         ZZ= -0.12208830E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41960097E-01 Y= -0.40515660E-11 Z= -0.19395843E-04   Total=     0.04196010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20385040E+01         XY=  0.39646546E+00         XZ=  0.34934310E+00
                YY=  0.12456292E+01         YZ= -0.18326419E-03         ZZ=  0.12452472E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1623293E-02 Y= -0.7096934E-09 Z=  0.5457853E-02  Total=      0.0056941
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146260E+02         XY=  0.81164641E-02         XZ=  0.33327222E-01
                YY= -0.10161672E+02         YZ=  0.27289261E-01         ZZ= -0.12208850E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41982919E-01 Y=  0.22810141E-11 Z= -0.18028173E-04   Total=     0.04198292
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20389456E+01         XY=  0.39668110E+00         XZ=  0.36060817E+00
                YY=  0.12456423E+01         YZ= -0.17034152E-03         ZZ=  0.12452825E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4620305E-02 Y= -0.7078151E-09 Z=  0.5456299E-02  Total=      0.0071497
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116296E+02         XY=  0.23101525E-01         XZ=  0.47217021E-01
                YY= -0.10161668E+02         YZ=  0.27281491E-01         ZZ= -0.12208862E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25985569E-01 Y=  0.50085383E-11 Z= -0.13420343E-04   Total=     0.02598557
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17366200E+01         XY=  0.24552804E+00         XZ=  0.23423415E+00
                YY=  0.12456279E+01         YZ= -0.12680381E-03         ZZ=  0.12453453E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5862030E-02 Y= -0.7085375E-09 Z=  0.5455207E-02  Total=      0.0080077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103882E+02         XY=  0.29310149E-01         XZ=  0.53534556E-01
                YY= -0.10161667E+02         YZ=  0.27276032E-01         ZZ= -0.12208873E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27836154E-04 Y=  0.27928167E-11 Z= -0.11940067E-04   Total=     0.00003029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12460656E+01         XY=  0.26301356E-03         XZ=  0.18044313E-01
                YY=  0.12456040E+01         YZ= -0.11281726E-03         ZZ=  0.12453469E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4869828E-02 Y= -0.7073816E-09 Z=  0.5453763E-02  Total=      0.0073115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113802E+02         XY=  0.24349138E-01         XZ=  0.49842694E-01
                YY= -0.10161668E+02         YZ=  0.27268815E-01         ZZ= -0.12208890E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26012722E-01 Y= -0.34637009E-11 Z= -0.15653182E-04   Total=     0.02601273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75397267E+00         XY= -0.24578460E+00         XZ= -0.20569985E+00
                YY=  0.12456016E+01         YZ= -0.14790115E-03         ZZ=  0.12452826E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2016363E-02 Y= -0.7054311E-09 Z=  0.5451635E-02  Total=      0.0058126
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142335E+02         XY=  0.10081811E-01         XZ=  0.37520763E-01
                YY= -0.10161669E+02         YZ=  0.27258175E-01         ZZ= -0.12208914E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42199505E-01 Y= -0.10994522E-10 Z= -0.19468596E-04   Total=     0.04219951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44811069E+00         XY= -0.39872754E+00         XZ= -0.35158605E+00
                YY=  0.12456221E+01         YZ= -0.18395166E-03         ZZ=  0.12452387E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1614342E-02 Y= -0.7065148E-09 Z=  0.5449432E-02  Total=      0.0056835
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178646E+02         XY= -0.80717125E-02         XZ=  0.21249386E-01
                YY= -0.10161667E+02         YZ=  0.27247156E-01         ZZ= -0.12208934E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42328534E-01 Y= -0.16388298E-10 Z= -0.18146150E-04   Total=     0.04232854
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44568295E+00         XY= -0.39994668E+00         XZ= -0.36369145E+00
                YY=  0.12456354E+01         YZ= -0.17145640E-03         ZZ=  0.12452734E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4638724E-02 Y= -0.7091154E-09 Z=  0.5447864E-02  Total=      0.0071552
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208895E+02         XY= -0.23193621E-01         XZ=  0.72290741E-02
                YY= -0.10161664E+02         YZ=  0.27239319E-01         ZZ= -0.12208947E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26306165E-01 Y= -0.17105470E-10 Z= -0.13520975E-04   Total=     0.02630617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74844243E+00         XY= -0.24855724E+00         XZ= -0.23705459E+00
                YY=  0.12456212E+01         YZ= -0.12775484E-03         ZZ=  0.12453366E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5900923E-02 Y= -0.7121495E-09 Z=  0.5446767E-02  Total=      0.0080305
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221520E+02         XY= -0.29504617E-01         XZ=  0.81359396E-03
                YY= -0.10161663E+02         YZ=  0.27233832E-01         ZZ= -0.12208957E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20173879E-03 Y= -0.12612962E-10 Z= -0.11984089E-04   Total=     0.00020209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12417200E+01         XY= -0.19061554E-02         XZ= -0.19686581E-01
                YY=  0.12455970E+01         YZ= -0.11323333E-03         ZZ=  0.12453390E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4914531E-02 Y= -0.7135221E-09 Z=  0.5445323E-02  Total=      0.0073351
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211655E+02         XY= -0.24572658E-01         XZ=  0.44649372E-02
                YY= -0.10161664E+02         YZ=  0.27226612E-01         ZZ= -0.12208975E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26051438E-01 Y= -0.46263177E-11 Z= -0.15677992E-04   Total=     0.02605144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17378353E+01         XY=  0.24615042E+00         XZ=  0.20567404E+00
                YY=  0.12455944E+01         YZ= -0.14813559E-03         ZZ=  0.12452748E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2050018E-02 Y= -0.7109937E-09 Z=  0.5443190E-02  Total=      0.0058164
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183008E+02         XY= -0.10250091E-01         XZ=  0.16810245E-01
                YY= -0.10161665E+02         YZ=  0.27215948E-01         ZZ= -0.12208998E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42436000E-01 Y=  0.36490665E-11 Z= -0.19536472E-04   Total=     0.04243600
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20474826E+01         XY=  0.40096209E+00         XZ=  0.35307001E+00
                YY=  0.12456150E+01         YZ= -0.18459287E-03         ZZ=  0.12452302E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1604383E-02 Y= -0.7066592E-09 Z=  0.5440974E-02  Total=      0.0056726
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146467E+02         XY=  0.80219136E-02         XZ=  0.33157908E-01
                YY= -0.10161663E+02         YZ=  0.27204866E-01         ZZ= -0.12209019E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42672865E-01 Y=  0.89334554E-11 Z= -0.18258534E-04   Total=     0.04267287
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20519695E+01         XY=  0.40320014E+00         XZ=  0.36607709E+00
                YY=  0.12456285E+01         YZ= -0.17251806E-03         ZZ=  0.12452644E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4656097E-02 Y= -0.7047087E-09 Z=  0.5439393E-02  Total=      0.0071600
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115956E+02         XY=  0.23280485E-01         XZ=  0.47277127E-01
                YY= -0.10161659E+02         YZ=  0.27196964E-01         ZZ= -0.12209032E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26627476E-01 Y=  0.93105484E-11 Z= -0.13616412E-04   Total=     0.02662748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17487363E+01         XY=  0.25159319E+00         XZ=  0.23936697E+00
                YY=  0.12456144E+01         YZ= -0.12865636E-03         ZZ=  0.12453280E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5938877E-02 Y= -0.7048532E-09 Z=  0.5438290E-02  Total=      0.0080527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103131E+02         XY=  0.29694384E-01         XZ=  0.53768916E-01
                YY= -0.10161658E+02         YZ=  0.27191451E-01         ZZ= -0.12209042E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37795650E-03 Y=  0.50467887E-11 Z= -0.12022616E-04   Total=     0.00037815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12526674E+01         XY=  0.35711714E-02         XZ=  0.20891445E-01
                YY=  0.12455901E+01         YZ= -0.11359721E-03         ZZ=  0.12453311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4958495E-02 Y= -0.7028305E-09 Z=  0.5436847E-02  Total=      0.0073584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112933E+02         XY=  0.24792473E-01         XZ=  0.50129931E-01
                YY= -0.10161659E+02         YZ=  0.27184231E-01         ZZ= -0.12209060E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26087249E-01 Y= -0.15687509E-11 Z= -0.15696265E-04   Total=     0.02608725
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75254938E+00         XY= -0.24648878E+00         XZ= -0.20621969E+00
                YY=  0.12455872E+01         YZ= -0.14830822E-03         ZZ=  0.12452670E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2083140E-02 Y= -0.6997964E-09 Z=  0.5434710E-02  Total=      0.0058203
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141685E+02         XY=  0.10415699E-01         XZ=  0.37719401E-01
                YY= -0.10161660E+02         YZ=  0.27173547E-01         ZZ= -0.12209083E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42670242E-01 Y= -0.72774363E-11 Z= -0.19597975E-04   Total=     0.04267025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43920031E+00         XY= -0.40317536E+00         XZ= -0.35527492E+00
                YY=  0.12456078E+01         YZ= -0.18517408E-03         ZZ=  0.12452217E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1594833E-02 Y= -0.6983516E-09 Z=  0.5432481E-02  Total=      0.0056617
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178468E+02         XY= -0.79741692E-02         XZ=  0.21251667E-01
                YY= -0.10161658E+02         YZ=  0.27162405E-01         ZZ= -0.12209104E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43016606E-01 Y= -0.93170451E-11 Z= -0.18366924E-04   Total=     0.04301661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43266607E+00         XY= -0.40644802E+00         XZ= -0.36914697E+00
                YY=  0.12456216E+01         YZ= -0.17354236E-03         ZZ=  0.12452554E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4673898E-02 Y= -0.7005188E-09 Z=  0.5430888E-02  Total=      0.0071652
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209265E+02         XY= -0.23369492E-01         XZ=  0.70019486E-02
                YY= -0.10161655E+02         YZ=  0.27154440E-01         ZZ= -0.12209117E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26950238E-01 Y= -0.66371993E-11 Z= -0.13710557E-04   Total=     0.02695024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73625716E+00         XY= -0.25464284E+00         XZ= -0.24220325E+00
                YY=  0.12456075E+01         YZ= -0.12954604E-03         ZZ=  0.12453193E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5977422E-02 Y= -0.7029027E-09 Z=  0.5429780E-02  Total=      0.0080754
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222303E+02         XY= -0.29887111E-01         XZ=  0.41123228E-03
                YY= -0.10161654E+02         YZ=  0.27148900E-01         ZZ= -0.12209127E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55727314E-03 Y= -0.33135080E-12 Z= -0.12060062E-04   Total=     0.00055740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12349868E+01         XY= -0.52654681E-02         XZ= -0.22572823E-01
                YY=  0.12455830E+01         YZ= -0.11395107E-03         ZZ=  0.12453232E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5003308E-02 Y= -0.7028305E-09 Z=  0.5428337E-02  Total=      0.0073824
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212560E+02         XY= -0.25016543E-01         XZ=  0.40080089E-02
                YY= -0.10161655E+02         YZ=  0.27141682E-01         ZZ= -0.12209145E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26119343E-01 Y=  0.68924474E-11 Z= -0.15710925E-04   Total=     0.02611935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17391035E+01         XY=  0.24679203E+00         XZ=  0.20614439E+00
                YY=  0.12455800E+01         YZ= -0.14844666E-03         ZZ=  0.12452593E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2117377E-02 Y= -0.7007355E-09 Z=  0.5426197E-02  Total=      0.0058247
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183699E+02         XY= -0.10586887E-01         XZ=  0.16439976E-01
                YY= -0.10161656E+02         YZ=  0.27130981E-01         ZZ= -0.12209168E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42901434E-01 Y=  0.11944559E-10 Z= -0.19653295E-04   Total=     0.04290144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20562632E+01         XY=  0.40535980E+00         XZ=  0.35671537E+00
                YY=  0.12456006E+01         YZ= -0.18569662E-03         ZZ=  0.12452134E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1583990E-02 Y= -0.6964733E-09 Z=  0.5423957E-02  Total=      0.0056505
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146689E+02         XY=  0.79199471E-02         XZ=  0.32982459E-01
                YY= -0.10161654E+02         YZ=  0.27119783E-01         ZZ= -0.12209189E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43359010E-01 Y=  0.12723122E-10 Z= -0.18468900E-04   Total=     0.04335901
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20649215E+01         XY=  0.40968327E+00         XZ=  0.37151109E+00
                YY=  0.12456146E+01         YZ= -0.17450571E-03         ZZ=  0.12452465E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4690373E-02 Y= -0.6943061E-09 Z=  0.5422352E-02  Total=      0.0071695
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115631E+02         XY=  0.23451862E-01         XZ=  0.47330613E-01
                YY= -0.10161651E+02         YZ=  0.27111756E-01         ZZ= -0.12209202E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27273799E-01 Y=  0.90085492E-11 Z= -0.13799769E-04   Total=     0.02727380
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17609359E+01         XY=  0.25770005E+00         XZ=  0.24452575E+00
                YY=  0.12456006E+01         YZ= -0.13038885E-03         ZZ=  0.12453107E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6014764E-02 Y= -0.6951730E-09 Z=  0.5421239E-02  Total=      0.0080974
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102390E+02         XY=  0.30073818E-01         XZ=  0.53998519E-01
                YY= -0.10161649E+02         YZ=  0.27106192E-01         ZZ= -0.12209213E+02
  Expectation value of momentum operator [a. u.]
    X=  0.73915336E-03 Y=  0.24948760E-11 Z= -0.12093478E-04   Total=     0.00073925
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12594784E+01         XY=  0.69839871E-02         XZ=  0.23816753E-01
                YY=  0.12455760E+01         YZ= -0.11426678E-03         ZZ=  0.12453154E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5047147E-02 Y= -0.6938004E-09 Z=  0.5419796E-02  Total=      0.0074059
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112065E+02         XY=  0.25235731E-01         XZ=  0.50415958E-01
                YY= -0.10161651E+02         YZ=  0.27098978E-01         ZZ= -0.12209230E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26148136E-01 Y= -0.40278404E-11 Z= -0.15721188E-04   Total=     0.02614814
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75138376E+00         XY= -0.24706408E+00         XZ= -0.20663776E+00
                YY=  0.12455727E+01         YZ= -0.14854373E-03         ZZ=  0.12452517E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2150882E-02 Y= -0.6904051E-09 Z=  0.5417653E-02  Total=      0.0058290
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141026E+02         XY=  0.10754410E-01         XZ=  0.37920753E-01
                YY= -0.10161651E+02         YZ=  0.27088263E-01         ZZ= -0.12209254E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43129879E-01 Y= -0.79476985E-11 Z= -0.19704149E-04   Total=     0.04312988
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43049958E+00         XY= -0.40751829E+00         XZ= -0.35887637E+00
                YY=  0.12455934E+01         YZ= -0.18617730E-03         ZZ=  0.12452051E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1573713E-02 Y= -0.6875154E-09 Z=  0.5415403E-02  Total=      0.0056394
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178275E+02         XY= -0.78685650E-02         XZ=  0.21259485E-01
                YY= -0.10161650E+02         YZ=  0.27077011E-01         ZZ= -0.12209275E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43700296E-01 Y= -0.79755154E-11 Z= -0.18567746E-04   Total=     0.04370030
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41973188E+00         XY= -0.41290795E+00         XZ= -0.37456231E+00
                YY=  0.12456076E+01         YZ= -0.17543984E-03         ZZ=  0.12452376E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4707391E-02 Y= -0.6880211E-09 Z=  0.5413785E-02  Total=      0.0071742
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209617E+02         XY= -0.23536955E-01         XZ=  0.67810159E-02
                YY= -0.10161646E+02         YZ=  0.27068925E-01         ZZ= -0.12209288E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27598313E-01 Y= -0.46471755E-11 Z= -0.13887163E-04   Total=     0.02759832
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72399617E+00         XY= -0.26076626E+00         XZ= -0.24737424E+00
                YY=  0.12455937E+01         YZ= -0.13121471E-03         ZZ=  0.12453021E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6052776E-02 Y= -0.6896104E-09 Z=  0.5412668E-02  Total=      0.0081199
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223074E+02         XY= -0.30263883E-01         XZ=  0.13294632E-04
                YY= -0.10161645E+02         YZ=  0.27063338E-01         ZZ= -0.12209299E+02
  Expectation value of momentum operator [a. u.]
    X= -0.92370111E-03 Y=  0.16027066E-13 Z= -0.12124067E-04   Total=     0.00092378
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12280477E+01         XY= -0.87277107E-02         XZ= -0.25535604E-01
                YY=  0.12455689E+01         YZ= -0.11455583E-03         ZZ=  0.12453076E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5091883E-02 Y= -0.6891770E-09 Z=  0.5411226E-02  Total=      0.0074303
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213464E+02         XY= -0.25459418E-01         XZ=  0.35519773E-02
                YY= -0.10161646E+02         YZ=  0.27056130E-01         ZZ= -0.12209316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26173567E-01 Y=  0.35026203E-11 Z= -0.15725441E-04   Total=     0.02617357
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17401131E+01         XY=  0.24730437E+00         XZ=  0.20651284E+00
                YY=  0.12455654E+01         YZ= -0.14858385E-03         ZZ=  0.12452441E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2185526E-02 Y= -0.6873710E-09 Z=  0.5409081E-02  Total=      0.0058339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184399E+02         XY= -0.10927631E-01         XZ=  0.16066648E-01
                YY= -0.10161647E+02         YZ=  0.27045403E-01         ZZ= -0.12209340E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43355569E-01 Y=  0.39824065E-11 Z= -0.19746526E-04   Total=     0.04335557
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20648302E+01         XY=  0.40965076E+00         XZ=  0.36027191E+00
                YY=  0.12455861E+01         YZ= -0.18657760E-03         ZZ=  0.12451969E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1562140E-02 Y= -0.6843368E-09 Z=  0.5406821E-02  Total=      0.0056280
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146925E+02         XY=  0.78106992E-02         XZ=  0.32801060E-01
                YY= -0.10161645E+02         YZ=  0.27034102E-01         ZZ= -0.12209361E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44040518E-01 Y=  0.11100584E-11 Z= -0.18658696E-04   Total=     0.04404052
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20777858E+01         XY=  0.41612259E+00         XZ=  0.37690286E+00
                YY=  0.12456005E+01         YZ= -0.17629911E-03         ZZ=  0.12452288E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4723104E-02 Y= -0.6839756E-09 Z=  0.5405192E-02  Total=      0.0071780
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115321E+02         XY=  0.23615516E-01         XZ=  0.47377414E-01
                YY= -0.10161642E+02         YZ=  0.27025959E-01         ZZ= -0.12209374E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27923909E-01 Y= -0.38908637E-11 Z= -0.13969338E-04   Total=     0.02792391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17732070E+01         XY=  0.26384270E+00         XZ=  0.24970487E+00
                YY=  0.12455867E+01         YZ= -0.13199114E-03         ZZ=  0.12452936E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6089631E-02 Y= -0.6855649E-09 Z=  0.5404070E-02  Total=      0.0081417
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101659E+02         XY=  0.30448152E-01         XZ=  0.54223139E-01
                YY= -0.10161640E+02         YZ=  0.27020351E-01         ZZ= -0.12209385E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11111284E-02 Y= -0.88719971E-11 Z= -0.12151382E-04   Total=     0.00111119
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12664931E+01         XY=  0.10498642E-01         XZ=  0.26817250E-01
                YY=  0.12455618E+01         YZ= -0.11481400E-03         ZZ=  0.12452998E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5135717E-02 Y= -0.6836867E-09 Z=  0.5402631E-02  Total=      0.0074541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111197E+02         XY=  0.25678581E-01         XZ=  0.50700502E-01
                YY= -0.10161642E+02         YZ=  0.27013151E-01         ZZ= -0.12209402E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26195343E-01 Y= -0.11800837E-10 Z= -0.15726445E-04   Total=     0.02619535
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75047657E+00         XY= -0.24751012E+00         XZ= -0.20695431E+00
                YY=  0.12455580E+01         YZ= -0.14859347E-03         ZZ=  0.12452366E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2219539E-02 Y= -0.6813750E-09 Z=  0.5400484E-02  Total=      0.0058388
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140357E+02         XY=  0.11097695E-01         XZ=  0.38124590E-01
                YY= -0.10161642E+02         YZ=  0.27002416E-01         ZZ= -0.12209426E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43578130E-01 Y= -0.11696637E-10 Z= -0.19785210E-04   Total=     0.04357813
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42201387E+00         XY= -0.41175366E+00         XZ= -0.36238856E+00
                YY=  0.12455787E+01         YZ= -0.18694324E-03         ZZ=  0.12451888E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1551001E-02 Y= -0.6792077E-09 Z=  0.5398214E-02  Total=      0.0056166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178066E+02         XY= -0.77550084E-02         XZ=  0.21272719E-01
                YY= -0.10161641E+02         YZ=  0.26991068E-01         ZZ= -0.12209447E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44379224E-01 Y= -0.90253209E-11 Z= -0.18746488E-04   Total=     0.04437923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40688756E+00         XY= -0.41932290E+00         XZ= -0.37993459E+00
                YY=  0.12455934E+01         YZ= -0.17712872E-03         ZZ=  0.12452200E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4739194E-02 Y= -0.6781241E-09 Z=  0.5396574E-02  Total=      0.0071821
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209953E+02         XY= -0.23695972E-01         XZ=  0.65662778E-02
                YY= -0.10161637E+02         YZ=  0.26982870E-01         ZZ= -0.12209461E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28250053E-01 Y= -0.53894398E-11 Z= -0.14048994E-04   Total=     0.02825006
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71166582E+00         XY= -0.26692432E+00         XZ= -0.25256461E+00
                YY=  0.12455797E+01         YZ= -0.13274380E-03         ZZ=  0.12452851E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6126956E-02 Y= -0.6804358E-09 Z=  0.5395449E-02  Total=      0.0081640
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223834E+02         XY= -0.30634780E-01         XZ= -0.38010011E-03
                YY= -0.10161636E+02         YZ=  0.26977242E-01         ZZ= -0.12209471E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13008104E-02 Y= -0.26937433E-11 Z= -0.12175016E-04   Total=     0.00130087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12209067E+01         XY= -0.12290877E-01         XZ= -0.28572431E-01
                YY=  0.12455546E+01         YZ= -0.11503725E-03         ZZ=  0.12452921E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5180212E-02 Y= -0.6803636E-09 Z=  0.5394011E-02  Total=      0.0074786
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214365E+02         XY= -0.25901061E-01         XZ=  0.30970609E-02
                YY= -0.10161637E+02         YZ=  0.26970052E-01         ZZ= -0.12209488E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26214193E-01 Y= -0.22071065E-11 Z= -0.15721003E-04   Total=     0.02621420
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17408657E+01         XY=  0.24768823E+00         XZ=  0.20678132E+00
                YY=  0.12455507E+01         YZ= -0.14854197E-03         ZZ=  0.12452291E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2254414E-02 Y= -0.6771128E-09 Z=  0.5391863E-02  Total=      0.0058442
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185106E+02         XY= -0.11272073E-01         XZ=  0.15690568E-01
                YY= -0.10161638E+02         YZ=  0.26959313E-01         ZZ= -0.12209512E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43798413E-01 Y= -0.39822134E-11 Z= -0.19815786E-04   Total=     0.04379842
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20731837E+01         XY=  0.41383503E+00         XZ=  0.36374129E+00
                YY=  0.12455714E+01         YZ= -0.18723208E-03         ZZ=  0.12451807E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1538888E-02 Y= -0.6740064E-09 Z=  0.5389585E-02  Total=      0.0056050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147176E+02         XY=  0.76944405E-02         XZ=  0.32614102E-01
                YY= -0.10161636E+02         YZ=  0.26947921E-01         ZZ= -0.12209534E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44717394E-01 Y= -0.69018486E-11 Z= -0.18827638E-04   Total=     0.04471740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20905624E+01         XY=  0.42251814E+00         XZ=  0.38225409E+00
                YY=  0.12455862E+01         YZ= -0.17789546E-03         ZZ=  0.12452114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4754350E-02 Y= -0.6735007E-09 Z=  0.5387934E-02  Total=      0.0071857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115027E+02         XY=  0.23771747E-01         XZ=  0.47418006E-01
                YY= -0.10161633E+02         YZ=  0.26939670E-01         ZZ= -0.12209547E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28577855E-01 Y= -0.93076831E-11 Z= -0.14125283E-04   Total=     0.02857786
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17855505E+01         XY=  0.27002160E+00         XZ=  0.25490601E+00
                YY=  0.12455727E+01         YZ= -0.13346466E-03         ZZ=  0.12452767E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6163545E-02 Y= -0.6755957E-09 Z=  0.5386805E-02  Total=      0.0081858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100938E+02         XY=  0.30817723E-01         XZ=  0.54443323E-01
                YY= -0.10161631E+02         YZ=  0.26934022E-01         ZZ= -0.12209558E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14939691E-02 Y= -0.98812336E-11 Z= -0.12197158E-04   Total=     0.00149402
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12737131E+01         XY=  0.14115962E-01         XZ=  0.29894246E-01
                YY=  0.12455475E+01         YZ= -0.11524652E-03         ZZ=  0.12452844E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5224278E-02 Y= -0.6757402E-09 Z=  0.5385369E-02  Total=      0.0075030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110329E+02         XY=  0.26121387E-01         XZ=  0.50984137E-01
                YY= -0.10161633E+02         YZ=  0.26926844E-01         ZZ= -0.12209575E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26228811E-01 Y= -0.83274474E-11 Z= -0.15713169E-04   Total=     0.02622882
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74982895E+00         XY= -0.24782634E+00         XZ= -0.20716914E+00
                YY=  0.12455433E+01         YZ= -0.14846800E-03         ZZ=  0.12452217E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2289181E-02 Y= -0.6736452E-09 Z=  0.5383221E-02  Total=      0.0058497
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139679E+02         XY=  0.11445902E-01         XZ=  0.38331440E-01
                YY= -0.10161633E+02         YZ=  0.26916104E-01         ZZ= -0.12209599E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44015064E-01 Y= -0.55196370E-11 Z= -0.19841979E-04   Total=     0.04401507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41374194E+00         XY= -0.41588209E+00         XZ= -0.36581317E+00
                YY=  0.12455639E+01         YZ= -0.18747958E-03         ZZ=  0.12451727E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1526649E-02 Y= -0.6717669E-09 Z=  0.5380935E-02  Total=      0.0055933
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177840E+02         XY= -0.76332457E-02         XZ=  0.21291745E-01
                YY= -0.10161632E+02         YZ=  0.26904673E-01         ZZ= -0.12209620E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45053671E-01 Y= -0.30371896E-11 Z= -0.18903443E-04   Total=     0.04505367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39412782E+00         XY= -0.42569549E+00         XZ= -0.38526788E+00
                YY=  0.12455790E+01         YZ= -0.17861168E-03         ZZ=  0.12452028E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4769296E-02 Y= -0.6717669E-09 Z=  0.5379275E-02  Total=      0.0071891
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210272E+02         XY= -0.23846480E-01         XZ=  0.63578605E-02
                YY= -0.10161629E+02         YZ=  0.26896372E-01         ZZ= -0.12209634E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28905989E-01 Y= -0.23327332E-11 Z= -0.14196111E-04   Total=     0.02890599
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69925612E+00         XY= -0.27312202E+00         XZ= -0.25778072E+00
                YY=  0.12455656E+01         YZ= -0.13413383E-03         ZZ=  0.12452683E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6200004E-02 Y= -0.6731395E-09 Z=  0.5378142E-02  Total=      0.0082076
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224582E+02         XY= -0.31000020E-01         XZ= -0.76915649E-03
                YY= -0.10161627E+02         YZ=  0.26890706E-01         ZZ= -0.12209645E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16893379E-02 Y= -0.39590874E-11 Z= -0.12212974E-04   Total=     0.00168938
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12135499E+01         XY= -0.15961930E-01         XZ= -0.31691246E-01
                YY=  0.12455403E+01         YZ= -0.11539591E-03         ZZ=  0.12452768E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5268404E-02 Y= -0.6738619E-09 Z=  0.5376709E-02  Total=      0.0075276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215265E+02         XY= -0.26342023E-01         XZ=  0.26426957E-02
                YY= -0.10161628E+02         YZ=  0.26883543E-01         ZZ= -0.12209661E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26240392E-01 Y= -0.72545344E-11 Z= -0.15697362E-04   Total=     0.02624040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17413456E+01         XY=  0.24793577E+00         XZ=  0.20694163E+00
                YY=  0.12455358E+01         YZ= -0.14831864E-03         ZZ=  0.12452144E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2324217E-02 Y= -0.6729950E-09 Z=  0.5374561E-02  Total=      0.0058556
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185822E+02         XY= -0.11621088E-01         XZ=  0.15310847E-01
                YY= -0.10161629E+02         YZ=  0.26872805E-01         ZZ= -0.12209685E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44229212E-01 Y= -0.10655505E-10 Z= -0.19859943E-04   Total=     0.04422922
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20813095E+01         XY=  0.41790548E+00         XZ=  0.36711656E+00
                YY=  0.12455565E+01         YZ= -0.18764935E-03         ZZ=  0.12451649E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1514010E-02 Y= -0.6705389E-09 Z=  0.5372268E-02  Total=      0.0055815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147442E+02         XY=  0.75700467E-02         XZ=  0.32420469E-01
                YY= -0.10161627E+02         YZ=  0.26861337E-01         ZZ= -0.12209707E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45389127E-01 Y= -0.12489751E-10 Z= -0.18973640E-04   Total=     0.04538913
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21032417E+01         XY=  0.42886510E+00         XZ=  0.38756049E+00
                YY=  0.12455717E+01         YZ= -0.17927503E-03         ZZ=  0.12451942E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4783862E-02 Y= -0.6701054E-09 Z=  0.5370598E-02  Total=      0.0071923
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114750E+02         XY=  0.23919310E-01         XZ=  0.47451183E-01
                YY= -0.10161624E+02         YZ=  0.26852987E-01         ZZ= -0.12209721E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29235498E-01 Y= -0.11854060E-10 Z= -0.14265170E-04   Total=     0.02923550
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17979638E+01         XY=  0.27623542E+00         XZ=  0.26012847E+00
                YY=  0.12455585E+01         YZ= -0.13478642E-03         ZZ=  0.12452599E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6236265E-02 Y= -0.6724171E-09 Z=  0.5369461E-02  Total=      0.0082293
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100229E+02         XY=  0.31181323E-01         XZ=  0.54657930E-01
                YY= -0.10161622E+02         YZ=  0.26847304E-01         ZZ= -0.12209731E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18879562E-02 Y= -0.91268044E-11 Z= -0.12228749E-04   Total=     0.00188800
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12811436E+01         XY=  0.17838600E-01         XZ=  0.33050823E-01
                YY=  0.12455330E+01         YZ= -0.11554501E-03         ZZ=  0.12452692E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5312628E-02 Y= -0.6725616E-09 Z=  0.5368032E-02  Total=      0.0075525
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109464E+02         XY=  0.26563136E-01         XZ=  0.51265930E-01
                YY= -0.10161623E+02         YZ=  0.26840157E-01         ZZ= -0.12209748E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26247875E-01 Y= -0.58391191E-11 Z= -0.15679943E-04   Total=     0.02624788
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74945347E+00         XY= -0.24800648E+00         XZ= -0.20727586E+00
                YY=  0.12455284E+01         YZ= -0.14815404E-03         ZZ=  0.12452072E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2359666E-02 Y= -0.6699609E-09 Z=  0.5365885E-02  Total=      0.0058618
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138992E+02         XY=  0.11798328E-01         XZ=  0.38540683E-01
                YY= -0.10161624E+02         YZ=  0.26829424E-01         ZZ= -0.12209772E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44439749E-01 Y= -0.39440489E-11 Z= -0.19873577E-04   Total=     0.04443975
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40570140E+00         XY= -0.41989478E+00         XZ= -0.36914156E+00
                YY=  0.12455490E+01         YZ= -0.18777813E-03         ZZ=  0.12451571E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1500720E-02 Y= -0.6677937E-09 Z=  0.5363585E-02  Total=      0.0055696
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177599E+02         XY= -0.75036022E-02         XZ=  0.21316317E-01
                YY= -0.10161623E+02         YZ=  0.26817923E-01         ZZ= -0.12209794E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45722603E-01 Y= -0.48269660E-11 Z= -0.19038295E-04   Total=     0.04572261
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38147220E+00         XY= -0.43201599E+00         XZ= -0.39055264E+00
                YY=  0.12455645E+01         YZ= -0.17988586E-03         ZZ=  0.12451858E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4797685E-02 Y= -0.6686606E-09 Z=  0.5361906E-02  Total=      0.0071950
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210574E+02         XY= -0.23988429E-01         XZ=  0.61558868E-02
                YY= -0.10161620E+02         YZ=  0.26809528E-01         ZZ= -0.12209808E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29565164E-01 Y= -0.85445147E-11 Z= -0.14329035E-04   Total=     0.02956517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68678517E+00         XY= -0.27935031E+00         XZ= -0.26301359E+00
                YY=  0.12455514E+01         YZ= -0.13538984E-03         ZZ=  0.12452516E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6271847E-02 Y= -0.6714057E-09 Z=  0.5360766E-02  Total=      0.0082507
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225319E+02         XY= -0.31359236E-01         XZ= -0.11534283E-02
                YY= -0.10161618E+02         YZ=  0.26803830E-01         ZZ= -0.12209819E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20885532E-02 Y= -0.13688032E-10 Z= -0.12239380E-04   Total=     0.00208859
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12059911E+01         XY= -0.19733968E-01         XZ= -0.34884853E-01
                YY=  0.12455258E+01         YZ= -0.11564550E-03         ZZ=  0.12452617E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5356344E-02 Y= -0.6729228E-09 Z=  0.5359340E-02  Total=      0.0075771
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216163E+02         XY= -0.26781723E-01         XZ=  0.21895653E-02
                YY= -0.10161619E+02         YZ=  0.26796700E-01         ZZ= -0.12209835E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26252574E-01 Y= -0.17970890E-10 Z= -0.15656495E-04   Total=     0.02625258
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17415606E+01         XY=  0.24805087E+00         XZ=  0.20699833E+00
                YY=  0.12455209E+01         YZ= -0.14793259E-03         ZZ=  0.12452000E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2394800E-02 Y= -0.6724171E-09 Z=  0.5357195E-02  Total=      0.0058681
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186546E+02         XY= -0.11974000E-01         XZ=  0.14928297E-01
                YY= -0.10161620E+02         YZ=  0.26785975E-01         ZZ= -0.12209859E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44648023E-01 Y= -0.19287122E-10 Z= -0.19881011E-04   Total=     0.04464803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20892087E+01         XY=  0.42186268E+00         XZ=  0.37039926E+00
                YY=  0.12455415E+01         YZ= -0.18784849E-03         ZZ=  0.12451493E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1487633E-02 Y= -0.6711168E-09 Z=  0.5354889E-02  Total=      0.0055577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147724E+02         XY=  0.74381634E-02         XZ=  0.32220984E-01
                YY= -0.10161618E+02         YZ=  0.26774444E-01         ZZ= -0.12209881E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46055464E-01 Y= -0.16746604E-10 Z= -0.19098687E-04   Total=     0.04605547
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21158190E+01         XY=  0.43516107E+00         XZ=  0.39282063E+00
                YY=  0.12455571E+01         YZ= -0.18045659E-03         ZZ=  0.12451774E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4811744E-02 Y= -0.6709723E-09 Z=  0.5353201E-02  Total=      0.0071979
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114489E+02         XY=  0.24058720E-01         XZ=  0.47477673E-01
                YY= -0.10161615E+02         YZ=  0.26766003E-01         ZZ= -0.12209895E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29896355E-01 Y= -0.11179129E-10 Z= -0.14391336E-04   Total=     0.02989636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18104378E+01         XY=  0.28247961E+00         XZ=  0.26536829E+00
                YY=  0.12455442E+01         YZ= -0.13597852E-03         ZZ=  0.12452433E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6307854E-02 Y= -0.6722726E-09 Z=  0.5352059E-02  Total=      0.0082725
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099531E+02         XY=  0.31539268E-01         XZ=  0.54867500E-01
                YY= -0.10161613E+02         YZ=  0.26760291E-01         ZZ= -0.12209906E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22924798E-02 Y= -0.48362466E-11 Z= -0.12249049E-04   Total=     0.00229251
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12887733E+01         XY=  0.21660795E-01         XZ=  0.36281188E-01
                YY=  0.12455185E+01         YZ= -0.11573678E-03         ZZ=  0.12452542E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5400781E-02 Y= -0.6714057E-09 Z=  0.5350637E-02  Total=      0.0076025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108601E+02         XY=  0.27003905E-01         XZ=  0.51546163E-01
                YY= -0.10161614E+02         YZ=  0.26753181E-01         ZZ= -0.12209922E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26253183E-01 Y= -0.39869597E-12 Z= -0.15629781E-04   Total=     0.02625319
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74933792E+00         XY= -0.24805663E+00         XZ= -0.20728135E+00
                YY=  0.12455134E+01         YZ= -0.14768004E-03         ZZ=  0.12451928E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2430961E-02 Y= -0.6682994E-09 Z=  0.5348494E-02  Total=      0.0058750
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138298E+02         XY=  0.12154805E-01         XZ=  0.38752302E-01
                YY= -0.10161615E+02         YZ=  0.26742468E-01         ZZ= -0.12209946E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44852810E-01 Y=  0.27017586E-12 Z= -0.19882341E-04   Total=     0.04485281
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39788046E+00         XY= -0.42379764E+00         XZ= -0.37238104E+00
                YY=  0.12455339E+01         YZ= -0.18786090E-03         ZZ=  0.12451417E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1473298E-02 Y= -0.6649041E-09 Z=  0.5346182E-02  Total=      0.0055455
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177343E+02         XY= -0.73664908E-02         XZ=  0.21346103E-01
                YY= -0.10161614E+02         YZ=  0.26730910E-01         ZZ= -0.12209968E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46386604E-01 Y= -0.29581759E-11 Z= -0.19152276E-04   Total=     0.04638661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36890970E+00         XY= -0.43828989E+00         XZ= -0.39579606E+00
                YY=  0.12455498E+01         YZ= -0.18096281E-03         ZZ=  0.12451691E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4824492E-02 Y= -0.6646151E-09 Z=  0.5344486E-02  Total=      0.0071999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210860E+02         XY= -0.24122462E-01         XZ=  0.59597245E-02
                YY= -0.10161611E+02         YZ=  0.26722428E-01         ZZ= -0.12209982E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30228118E-01 Y= -0.83361561E-11 Z= -0.14448125E-04   Total=     0.03022812
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67424275E+00         XY= -0.28561432E+00         XZ= -0.26826986E+00
                YY=  0.12455371E+01         YZ= -0.13651507E-03         ZZ=  0.12452351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6342657E-02 Y= -0.6670713E-09 Z=  0.5343341E-02  Total=      0.0082934
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226045E+02         XY= -0.31713285E-01         XZ= -0.15338176E-02
                YY= -0.10161609E+02         YZ=  0.26716704E-01         ZZ= -0.12209993E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24989575E-02 Y= -0.12975980E-10 Z= -0.12254203E-04   Total=     0.00249899
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11982209E+01         XY= -0.23611726E-01         XZ= -0.38158907E-01
                YY=  0.12455112E+01         YZ= -0.11578555E-03         ZZ=  0.12452467E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5444240E-02 Y= -0.6676492E-09 Z=  0.5341923E-02  Total=      0.0076273
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217060E+02         XY= -0.27221204E-01         XZ=  0.17365564E-02
                YY= -0.10161610E+02         YZ=  0.26709615E-01         ZZ= -0.12210010E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26250302E-01 Y= -0.14150449E-10 Z= -0.15598173E-04   Total=     0.02625031
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17415024E+01         XY=  0.24802941E+00         XZ=  0.20694724E+00
                YY=  0.12455059E+01         YZ= -0.14738150E-03         ZZ=  0.12451858E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2466398E-02 Y= -0.6660599E-09 Z=  0.5339783E-02  Total=      0.0058819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187280E+02         XY= -0.12331993E-01         XZ=  0.14541679E-01
                YY= -0.10161611E+02         YZ=  0.26698915E-01         ZZ= -0.12210033E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45054547E-01 Y= -0.10573974E-10 Z= -0.19878487E-04   Total=     0.04505455
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20968757E+01         XY=  0.42570377E+00         XZ=  0.37358733E+00
                YY=  0.12455264E+01         YZ= -0.18782458E-03         ZZ=  0.12451342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1459511E-02 Y= -0.6634593E-09 Z=  0.5337467E-02  Total=      0.0055334
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148024E+02         XY=  0.72975515E-02         XZ=  0.32014401E-01
                YY= -0.10161609E+02         YZ=  0.26687333E-01         ZZ= -0.12210056E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46716333E-01 Y= -0.30685055E-11 Z= -0.19202096E-04   Total=     0.04671634
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21282929E+01         XY=  0.44140538E+00         XZ=  0.39803529E+00
                YY=  0.12455424E+01         YZ= -0.18143354E-03         ZZ=  0.12451608E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4837760E-02 Y= -0.6612920E-09 Z=  0.5335763E-02  Total=      0.0072024
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114247E+02         XY=  0.24188798E-01         XZ=  0.47496353E-01
                YY= -0.10161606E+02         YZ=  0.26678811E-01         ZZ= -0.12210070E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30560683E-01 Y=  0.57169366E-11 Z= -0.14503328E-04   Total=     0.03056069
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18229774E+01         XY=  0.28875660E+00         XZ=  0.27062958E+00
                YY=  0.12455298E+01         YZ= -0.13703655E-03         ZZ=  0.12452269E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6378116E-02 Y= -0.6604251E-09 Z=  0.5334615E-02  Total=      0.0083150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098847E+02         XY=  0.31890579E-01         XZ=  0.55071175E-01
                YY= -0.10161604E+02         YZ=  0.26673075E-01         ZZ= -0.12210080E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27081799E-02 Y=  0.12431628E-10 Z= -0.12258143E-04   Total=     0.00270821
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12966142E+01         XY=  0.25588591E-01         XZ=  0.39592802E-01
                YY=  0.12455039E+01         YZ= -0.11582256E-03         ZZ=  0.12452393E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5488611E-02 Y= -0.6593415E-09 Z=  0.5333202E-02  Total=      0.0076530
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107741E+02         XY=  0.27443055E-01         XZ=  0.51824367E-01
                YY= -0.10161605E+02         YZ=  0.26666008E-01         ZZ= -0.12210097E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26243744E-01 Y=  0.14504498E-10 Z= -0.15563095E-04   Total=     0.02624375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74950106E+00         XY= -0.24796744E+00         XZ= -0.20717541E+00
                YY=  0.12454983E+01         YZ= -0.14704982E-03         ZZ=  0.12451788E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2503028E-02 Y= -0.6565241E-09 Z=  0.5331066E-02  Total=      0.0058894
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137595E+02         XY=  0.12515136E-01         XZ=  0.38966293E-01
                YY= -0.10161606E+02         YZ=  0.26655326E-01         ZZ= -0.12210121E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45253039E-01 Y=  0.11313549E-10 Z= -0.19868511E-04   Total=     0.04525304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39030197E+00         XY= -0.42757926E+00         XZ= -0.37552000E+00
                YY=  0.12455188E+01         YZ= -0.18773014E-03         ZZ=  0.12451267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1444327E-02 Y= -0.6536345E-09 Z=  0.5328745E-02  Total=      0.0055210
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177071E+02         XY= -0.72216345E-02         XZ=  0.21381569E-01
                YY= -0.10161605E+02         YZ=  0.26643724E-01         ZZ= -0.12210143E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47044464E-01 Y=  0.45050767E-11 Z= -0.19245311E-04   Total=     0.04704447
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35646319E+00         XY= -0.44450577E+00         XZ= -0.40098708E+00
                YY=  0.12455350E+01         YZ= -0.18184180E-03         ZZ=  0.12451527E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4849578E-02 Y= -0.6532011E-09 Z=  0.5327033E-02  Total=      0.0072039
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211129E+02         XY= -0.24247889E-01         XZ=  0.57702313E-02
                YY= -0.10161602E+02         YZ=  0.26635165E-01         ZZ= -0.12210157E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30893893E-01 Y= -0.27013917E-11 Z= -0.14553401E-04   Total=     0.03089390
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66164700E+00         XY= -0.29190498E+00         XZ= -0.27354108E+00
                YY=  0.12455226E+01         YZ= -0.13750974E-03         ZZ=  0.12452188E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6412241E-02 Y= -0.6558740E-09 Z=  0.5325884E-02  Total=      0.0083356
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226759E+02         XY= -0.32061209E-01         XZ= -0.19092219E-02
                YY= -0.10161600E+02         YZ=  0.26629419E-01         ZZ= -0.12210168E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29200533E-02 Y= -0.69279314E-11 Z= -0.12257973E-04   Total=     0.00292008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11902486E+01         XY= -0.27590505E-01         XZ= -0.41509250E-01
                YY=  0.12454966E+01         YZ= -0.11582113E-03         ZZ=  0.12452319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5531889E-02 Y= -0.6577522E-09 Z=  0.5324476E-02  Total=      0.0076780
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217955E+02         XY= -0.27659445E-01         XZ=  0.12848213E-02
                YY= -0.10161601E+02         YZ=  0.26622377E-01         ZZ= -0.12210184E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26233510E-01 Y= -0.61460857E-11 Z= -0.15523251E-04   Total=     0.02623351
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17411698E+01         XY=  0.24787074E+00         XZ=  0.20678747E+00
                YY=  0.12454908E+01         YZ= -0.14667352E-03         ZZ=  0.12451719E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2538838E-02 Y= -0.6569576E-09 Z=  0.5322343E-02  Total=      0.0058969
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188023E+02         XY= -0.12694194E-01         XZ=  0.14151999E-01
                YY= -0.10161602E+02         YZ=  0.26611714E-01         ZZ= -0.12210208E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45448184E-01 Y= -0.59975014E-12 Z= -0.19852933E-04   Total=     0.04544819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21042990E+01         XY=  0.42942310E+00         XZ=  0.37667522E+00
                YY=  0.12455112E+01         YZ= -0.18758305E-03         ZZ=  0.12451193E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1429753E-02 Y= -0.6530566E-09 Z=  0.5320019E-02  Total=      0.0055088
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148339E+02         XY=  0.71487628E-02         XZ=  0.31801414E-01
                YY= -0.10161600E+02         YZ=  0.26600095E-01         ZZ= -0.12210230E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47370780E-01 Y=  0.72767581E-11 Z= -0.19283791E-04   Total=     0.04737078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21406453E+01         XY=  0.44758901E+00         XZ=  0.40319564E+00
                YY=  0.12455276E+01         YZ= -0.18220537E-03         ZZ=  0.12451446E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4861939E-02 Y= -0.6493723E-09 Z=  0.5318301E-02  Total=      0.0072057
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114023E+02         XY=  0.24309691E-01         XZ=  0.47507521E-01
                YY= -0.10161597E+02         YZ=  0.26591501E-01         ZZ= -0.12210245E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31227425E-01 Y=  0.13923194E-10 Z= -0.14600687E-04   Total=     0.03122743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18355626E+01         XY=  0.29505641E+00         XZ=  0.27590234E+00
                YY=  0.12455154E+01         YZ= -0.13795639E-03         ZZ=  0.12452108E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6447003E-02 Y= -0.6487221E-09 Z=  0.5317149E-02  Total=      0.0083568
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098176E+02         XY=  0.32235011E-01         XZ=  0.55268856E-01
                YY= -0.10161595E+02         YZ=  0.26585745E-01         ZZ= -0.12210255E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31341551E-02 Y=  0.16230112E-10 Z= -0.12255569E-04   Total=     0.00313418
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13046492E+01         XY=  0.29613474E-01         XZ=  0.42976677E-01
                YY=  0.12454893E+01         YZ= -0.11579821E-03         ZZ=  0.12452246E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5576009E-02 Y= -0.6472051E-09 Z=  0.5315746E-02  Total=      0.0077038
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106885E+02         XY=  0.27880045E-01         XZ=  0.52100116E-01
                YY= -0.10161596E+02         YZ=  0.26578729E-01         ZZ= -0.12210272E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26220120E-01 Y=  0.12926790E-10 Z= -0.15479368E-04   Total=     0.02622012
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74993225E+00         XY= -0.24774423E+00         XZ= -0.20696444E+00
                YY=  0.12454832E+01         YZ= -0.14625873E-03         ZZ=  0.12451650E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2575725E-02 Y= -0.6440987E-09 Z=  0.5313618E-02  Total=      0.0059050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136886E+02         XY=  0.12878625E-01         XZ=  0.39182024E-01
                YY= -0.10161597E+02         YZ=  0.26568090E-01         ZZ= -0.12210295E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45640600E-01 Y=  0.51593961E-11 Z= -0.19831166E-04   Total=     0.04564060
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38296285E+00         XY= -0.43124117E+00         XZ= -0.37856154E+00
                YY=  0.12455035E+01         YZ= -0.18737733E-03         ZZ=  0.12451121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1413948E-02 Y= -0.6420037E-09 Z=  0.5311292E-02  Total=      0.0054963
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176785E+02         XY= -0.70697417E-02         XZ=  0.21422006E-01
                YY= -0.10161596E+02         YZ=  0.26556458E-01         ZZ= -0.12210318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47696009E-01 Y= -0.39993731E-11 Z= -0.19316033E-04   Total=     0.04769601
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34413599E+00         XY= -0.45066197E+00         XZ= -0.40612567E+00
                YY=  0.12455201E+01         YZ= -0.18251010E-03         ZZ=  0.12451366E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4873065E-02 Y= -0.6413536E-09 Z=  0.5309567E-02  Total=      0.0072068
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211382E+02         XY= -0.24365324E-01         XZ=  0.55867347E-02
                YY= -0.10161593E+02         YZ=  0.26547832E-01         ZZ= -0.12210332E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31562115E-01 Y= -0.10890867E-10 Z= -0.14643527E-04   Total=     0.03156212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64900499E+00         XY= -0.29821877E+00         XZ= -0.27882494E+00
                YY=  0.12455081E+01         YZ= -0.13836138E-03         ZZ=  0.12452028E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6480695E-02 Y= -0.6430874E-09 Z=  0.5308414E-02  Total=      0.0083773
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227462E+02         XY= -0.32403477E-01         XZ= -0.22802000E-02
                YY= -0.10161591E+02         YZ=  0.26542069E-01         ZZ= -0.12210343E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33514199E-02 Y= -0.12866219E-10 Z= -0.12249860E-04   Total=     0.00335144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11820823E+01         XY= -0.31666329E-01         XZ= -0.44932287E-01
                YY=  0.12454819E+01         YZ= -0.11574452E-03         ZZ=  0.12452174E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5619351E-02 Y= -0.6443877E-09 Z=  0.5307017E-02  Total=      0.0077293
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218848E+02         XY= -0.28096759E-01         XZ=  0.83396218E-03
                YY= -0.10161592E+02         YZ=  0.26535081E-01         ZZ= -0.12210359E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26202566E-01 Y= -0.94269845E-11 Z= -0.15431349E-04   Total=     0.02620257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17405698E+01         XY=  0.24757837E+00         XZ=  0.20652318E+00
                YY=  0.12454757E+01         YZ= -0.14580520E-03         ZZ=  0.12451583E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2612154E-02 Y= -0.6427262E-09 Z=  0.5304894E-02  Total=      0.0059131
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188774E+02         XY= -0.13060773E-01         XZ=  0.13759049E-01
                YY= -0.10161593E+02         YZ=  0.26524467E-01         ZZ= -0.12210383E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45829244E-01 Y= -0.24093090E-11 Z= -0.19804001E-04   Total=     0.04582925
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21114847E+01         XY=  0.43302360E+00         XZ=  0.37966744E+00
                YY=  0.12454959E+01         YZ= -0.18712071E-03         ZZ=  0.12451049E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1398355E-02 Y= -0.6385362E-09 Z=  0.5302565E-02  Total=      0.0054838
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148672E+02         XY=  0.69917733E-02         XZ=  0.31582041E-01
                YY= -0.10161591E+02         YZ=  0.26512825E-01         ZZ= -0.12210405E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48019120E-01 Y=  0.48588714E-11 Z= -0.19343324E-04   Total=     0.04801912
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21528824E+01         XY=  0.45371493E+00         XZ=  0.40830680E+00
                YY=  0.12455127E+01         YZ= -0.18276789E-03         ZZ=  0.12451287E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4884310E-02 Y= -0.6368747E-09 Z=  0.5300834E-02  Total=      0.0072080
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113817E+02         XY=  0.24421547E-01         XZ=  0.47511460E-01
                YY= -0.10161588E+02         YZ=  0.26504168E-01         ZZ= -0.12210420E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31896993E-01 Y=  0.90432022E-11 Z= -0.14683268E-04   Total=     0.03189700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18482011E+01         XY=  0.30138290E+00         XZ=  0.28119258E+00
                YY=  0.12455008E+01         YZ= -0.13873671E-03         ZZ=  0.12451949E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6514588E-02 Y= -0.6385362E-09 Z=  0.5299680E-02  Total=      0.0083980
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097518E+02         XY=  0.32572936E-01         XZ=  0.55461126E-01
                YY= -0.10161586E+02         YZ=  0.26498399E-01         ZZ= -0.12210430E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35709621E-02 Y=  0.82647599E-11 Z= -0.12241945E-04   Total=     0.00357098
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13128890E+01         XY=  0.33740702E-01         XZ=  0.46439636E-01
                YY=  0.12454746E+01         YZ= -0.11566955E-03         ZZ=  0.12452102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5663104E-02 Y= -0.6378138E-09 Z=  0.5298288E-02  Total=      0.0077552
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106032E+02         XY=  0.28315519E-01         XZ=  0.52374310E-01
                YY= -0.10161587E+02         YZ=  0.26491440E-01         ZZ= -0.12210446E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26181646E-01 Y=  0.28917024E-11 Z= -0.15379926E-04   Total=     0.02618165
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75064407E+00         XY= -0.24738071E+00         XZ= -0.20664145E+00
                YY=  0.12454681E+01         YZ= -0.14531922E-03         ZZ=  0.12451516E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2649239E-02 Y= -0.6336961E-09 Z=  0.5296171E-02  Total=      0.0059218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136170E+02         XY=  0.13246194E-01         XZ=  0.39400677E-01
                YY= -0.10161588E+02         YZ=  0.26480856E-01         ZZ= -0.12210470E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46014856E-01 Y= -0.46767248E-11 Z= -0.19771857E-04   Total=     0.04601486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37587512E+00         XY= -0.43477738E+00         XZ= -0.38149986E+00
                YY=  0.12454882E+01         YZ= -0.18681702E-03         ZZ=  0.12450978E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1381934E-02 Y= -0.6298673E-09 Z=  0.5293842E-02  Total=      0.0054712
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176483E+02         XY= -0.69096712E-02         XZ=  0.21468785E-01
                YY= -0.10161587E+02         YZ=  0.26469206E-01         ZZ= -0.12210492E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48340837E-01 Y= -0.11115888E-10 Z= -0.19365927E-04   Total=     0.04834084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33193567E+00         XY= -0.45675471E+00         XZ= -0.41120893E+00
                YY=  0.12455052E+01         YZ= -0.18298159E-03         ZZ=  0.12451209E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4894710E-02 Y= -0.6292171E-09 Z=  0.5292105E-02  Total=      0.0072086
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211616E+02         XY= -0.24473550E-01         XZ=  0.54106345E-02
                YY= -0.10161584E+02         YZ=  0.26460522E-01         ZZ= -0.12210507E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32232815E-01 Y= -0.13658722E-10 Z= -0.14720136E-04   Total=     0.03223282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63631618E+00         XY= -0.30455596E+00         XZ= -0.28412282E+00
                YY=  0.12454935E+01         YZ= -0.13908525E-03         ZZ=  0.12451870E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6547798E-02 Y= -0.6316733E-09 Z=  0.5290950E-02  Total=      0.0084183
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228151E+02         XY= -0.32738990E-01         XZ= -0.26455199E-02
                YY= -0.10161582E+02         YZ=  0.26454747E-01         ZZ= -0.12210518E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37936216E-02 Y= -0.11293448E-10 Z= -0.12231961E-04   Total=     0.00379364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11737112E+01         XY= -0.35844530E-01         XZ= -0.48434276E-01
                YY=  0.12454672E+01         YZ= -0.11557538E-03         ZZ=  0.12452030E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5706474E-02 Y= -0.6330459E-09 Z=  0.5289564E-02  Total=      0.0077810
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219737E+02         XY= -0.28532374E-01         XZ=  0.38485371E-03
                YY= -0.10161583E+02         YZ=  0.26447819E-01         ZZ= -0.12210534E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26156408E-01 Y= -0.51526599E-11 Z= -0.15324877E-04   Total=     0.02615641
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17396824E+01         XY=  0.24714224E+00         XZ=  0.20614386E+00
                YY=  0.12454605E+01         YZ= -0.14479915E-03         ZZ=  0.12451449E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2686287E-02 Y= -0.6310954E-09 Z=  0.5287454E-02  Total=      0.0059307
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189534E+02         XY= -0.13431438E-01         XZ=  0.13363213E-01
                YY= -0.10161583E+02         YZ=  0.26437266E-01         ZZ= -0.12210557E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46196353E-01 Y=  0.20528848E-11 Z= -0.19733830E-04   Total=     0.04619636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21184068E+01         XY=  0.43649228E+00         XZ=  0.38255102E+00
                YY=  0.12454805E+01         YZ= -0.18645766E-03         ZZ=  0.12450908E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1365267E-02 Y= -0.6274111E-09 Z=  0.5285123E-02  Total=      0.0054586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149021E+02         XY=  0.68263335E-02         XZ=  0.31356130E-01
                YY= -0.10161582E+02         YZ=  0.26425613E-01         ZZ= -0.12210580E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48659952E-01 Y=  0.72710240E-11 Z= -0.19382182E-04   Total=     0.04865996
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21649775E+01         XY=  0.45976991E+00         XZ=  0.41335583E+00
                YY=  0.12454976E+01         YZ= -0.18313502E-03         ZZ=  0.12451132E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4904727E-02 Y= -0.6240158E-09 Z=  0.5283381E-02  Total=      0.0072091
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113631E+02         XY=  0.24523631E-01         XZ=  0.47507543E-01
                YY= -0.10161579E+02         YZ=  0.26416903E-01         ZZ= -0.12210594E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32568260E-01 Y=  0.84467673E-11 Z= -0.14752115E-04   Total=     0.03256826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18608718E+01         XY=  0.30772546E+00         XZ=  0.28648995E+00
                YY=  0.12454862E+01         YZ= -0.13938722E-03         ZZ=  0.12451792E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6580658E-02 Y= -0.6232211E-09 Z=  0.5282225E-02  Total=      0.0084384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096875E+02         XY=  0.32903286E-01         XZ=  0.55647028E-01
                YY= -0.10161577E+02         YZ=  0.26411124E-01         ZZ= -0.12210605E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40179771E-02 Y=  0.53626418E-11 Z= -0.12218328E-04   Total=     0.00401800
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13213217E+01         XY=  0.37964382E-01         XZ=  0.49975747E-01
                YY=  0.12454599E+01         YZ= -0.11544642E-03         ZZ=  0.12451959E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5749657E-02 Y= -0.6221375E-09 Z=  0.5280846E-02  Total=      0.0078068
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105185E+02         XY=  0.28748285E-01         XZ=  0.52645858E-01
                YY= -0.10161578E+02         YZ=  0.26404228E-01         ZZ= -0.12210621E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26128363E-01 Y= -0.36885939E-12 Z= -0.15265904E-04   Total=     0.02612837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75163582E+00         XY= -0.24687725E+00         XZ= -0.20620732E+00
                YY=  0.12454529E+01         YZ= -0.14424189E-03         ZZ=  0.12451384E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2723348E-02 Y= -0.6200426E-09 Z=  0.5278742E-02  Total=      0.0059398
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135447E+02         XY=  0.13616738E-01         XZ=  0.39621218E-01
                YY= -0.10161579E+02         YZ=  0.26393710E-01         ZZ= -0.12210644E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46375336E-01 Y= -0.61190795E-11 Z= -0.19691406E-04   Total=     0.04637534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36904776E+00         XY= -0.43818342E+00         XZ= -0.38433133E+00
                YY=  0.12454728E+01         YZ= -0.18605688E-03         ZZ=  0.12450839E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1348458E-02 Y= -0.6188145E-09 Z=  0.5276412E-02  Total=      0.0054460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176167E+02         XY= -0.67422907E-02         XZ=  0.21521077E-01
                YY= -0.10161578E+02         YZ=  0.26382057E-01         ZZ= -0.12210667E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48978148E-01 Y= -0.94630519E-11 Z= -0.19395228E-04   Total=     0.04897815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31987742E+00         XY= -0.46277643E+00         XZ= -0.41623012E+00
                YY=  0.12454901E+01         YZ= -0.18325843E-03         ZZ=  0.12451055E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4914623E-02 Y= -0.6192479E-09 Z=  0.5274665E-02  Total=      0.0072094
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211834E+02         XY= -0.24573118E-01         XZ=  0.52413897E-02
                YY= -0.10161575E+02         YZ=  0.26373323E-01         ZZ= -0.12210682E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32905086E-01 Y= -0.92375246E-11 Z= -0.14783148E-04   Total=     0.03290509
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62359771E+00         XY= -0.31090800E+00         XZ= -0.28942667E+00
                YY=  0.12454789E+01         YZ= -0.13968058E-03         ZZ=  0.12451714E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6613596E-02 Y= -0.6216318E-09 Z=  0.5273509E-02  Total=      0.0084587
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228827E+02         XY= -0.33067983E-01         XZ= -0.30054109E-02
                YY= -0.10161573E+02         YZ=  0.26367541E-01         ZZ= -0.12210692E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42458351E-02 Y= -0.59731115E-11 Z= -0.12204403E-04   Total=     0.00424585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11651510E+01         XY= -0.40117328E-01         XZ= -0.52007299E-01
                YY=  0.12454525E+01         YZ= -0.11531495E-03         ZZ=  0.12451889E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5793250E-02 Y= -0.6229322E-09 Z=  0.5272136E-02  Total=      0.0078331
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220623E+02         XY= -0.28966254E-01         XZ= -0.62439083E-04
                YY= -0.10161573E+02         YZ=  0.26360678E-01         ZZ= -0.12210708E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26095685E-01 Y= -0.15403777E-11 Z= -0.15204339E-04   Total=     0.02609569
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17385198E+01         XY=  0.24656849E+00         XZ=  0.20565651E+00
                YY=  0.12454453E+01         YZ= -0.14366020E-03         ZZ=  0.12451319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2761188E-02 Y= -0.6215596E-09 Z=  0.5270040E-02  Total=      0.0059496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190301E+02         XY= -0.13805941E-01         XZ=  0.12964820E-01
                YY= -0.10161574E+02         YZ=  0.26350196E-01         ZZ= -0.12210731E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46549992E-01 Y=  0.17859230E-11 Z= -0.19643052E-04   Total=     0.04655000
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21250743E+01         XY=  0.43983368E+00         XZ=  0.38533194E+00
                YY=  0.12454651E+01         YZ= -0.18559992E-03         ZZ=  0.12450771E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1330573E-02 Y= -0.6185977E-09 Z=  0.5267710E-02  Total=      0.0054332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149386E+02         XY=  0.66528613E-02         XZ=  0.31124252E-01
                YY= -0.10161573E+02         YZ=  0.26338545E-01         ZZ= -0.12210754E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49293660E-01 Y=  0.23844278E-11 Z= -0.19400957E-04   Total=     0.04929366
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21769381E+01         XY=  0.46575759E+00         XZ=  0.41834800E+00
                YY=  0.12454826E+01         YZ= -0.18331246E-03         ZZ=  0.12450979E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4923304E-02 Y= -0.6171529E-09 Z=  0.5265959E-02  Total=      0.0072090
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113463E+02         XY=  0.24616517E-01         XZ=  0.47496564E-01
                YY= -0.10161570E+02         YZ=  0.26329791E-01         ZZ= -0.12210769E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33241591E-01 Y= -0.22660625E-13 Z= -0.14808014E-04   Total=     0.03324159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18735816E+01         XY=  0.31408752E+00         XZ=  0.29179919E+00
                YY=  0.12454716E+01         YZ= -0.13991545E-03         ZZ=  0.12451638E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6645359E-02 Y= -0.6178753E-09 Z=  0.5264802E-02  Total=      0.0084781
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096246E+02         XY=  0.33226795E-01         XZ=  0.55827563E-01
                YY= -0.10161568E+02         YZ=  0.26324007E-01         ZZ= -0.12210780E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44755664E-02 Y= -0.43404188E-11 Z= -0.12185931E-04   Total=     0.00447558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13299544E+01         XY=  0.42287973E-01         XZ=  0.53589061E-01
                YY=  0.12454452E+01         YZ= -0.11514040E-03         ZZ=  0.12451819E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5835845E-02 Y= -0.6173696E-09 Z=  0.5263436E-02  Total=      0.0078588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104341E+02         XY=  0.29179224E-01         XZ=  0.52915915E-01
                YY= -0.10161569E+02         YZ=  0.26317180E-01         ZZ= -0.12210795E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26059951E-01 Y= -0.87038382E-11 Z= -0.15138648E-04   Total=     0.02605996
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75291354E+00         XY= -0.24623085E+00         XZ= -0.20565934E+00
                YY=  0.12454377E+01         YZ= -0.14303956E-03         ZZ=  0.12451255E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2798247E-02 Y= -0.6150579E-09 Z=  0.5261348E-02  Total=      0.0059592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134716E+02         XY=  0.13991232E-01         XZ=  0.39844870E-01
                YY= -0.10161570E+02         YZ=  0.26306738E-01         ZZ= -0.12210818E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46721878E-01 Y= -0.11392021E-10 Z= -0.19590570E-04   Total=     0.04672188
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36248383E+00         XY= -0.44145777E+00         XZ= -0.38705557E+00
                YY=  0.12454574E+01         YZ= -0.18510416E-03         ZZ=  0.12450704E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1313325E-02 Y= -0.6114459E-09 Z=  0.5259019E-02  Total=      0.0054205
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175834E+02         XY= -0.65666258E-02         XZ=  0.21580041E-01
                YY= -0.10161569E+02         YZ=  0.26295093E-01         ZZ= -0.12210841E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49608060E-01 Y= -0.11604632E-10 Z= -0.19403660E-04   Total=     0.04960806
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30795901E+00         XY= -0.46872824E+00         XZ= -0.42119201E+00
                YY=  0.12454751E+01         YZ= -0.18333811E-03         ZZ=  0.12450905E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4932638E-02 Y= -0.6097844E-09 Z=  0.5257264E-02  Total=      0.0072090
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212032E+02         XY= -0.24663191E-01         XZ=  0.50799516E-02
                YY= -0.10161566E+02         YZ=  0.26286320E-01         ZZ= -0.12210856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33579399E-01 Y= -0.97433218E-11 Z= -0.14831471E-04   Total=     0.03357940
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61084069E+00         XY= -0.31727934E+00         XZ= -0.29474263E+00
                YY=  0.12454642E+01         YZ= -0.14013717E-03         ZZ=  0.12451561E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6677979E-02 Y= -0.6118793E-09 Z=  0.5256108E-02  Total=      0.0084984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229489E+02         XY= -0.33389895E-01         XZ= -0.33592626E-02
                YY= -0.10161564E+02         YZ=  0.26280536E-01         ZZ= -0.12210867E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47088603E-02 Y= -0.70979141E-11 Z= -0.12165760E-04   Total=     0.00470888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11563866E+01         XY= -0.44492281E-01         XZ= -0.55660208E-01
                YY=  0.12454378E+01         YZ= -0.11494983E-03         ZZ=  0.12451750E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5879642E-02 Y= -0.6139743E-09 Z=  0.5254749E-02  Total=      0.0078856
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221505E+02         XY= -0.29398214E-01         XZ= -0.50772427E-03
                YY= -0.10161564E+02         YZ=  0.26273745E-01         ZZ= -0.12210882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26019399E-01 Y= -0.51285047E-11 Z= -0.15068062E-04   Total=     0.02601940
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17370631E+01         XY=  0.24584769E+00         XZ=  0.20505106E+00
                YY=  0.12454302E+01         YZ= -0.14237259E-03         ZZ=  0.12451192E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2836900E-02 Y= -0.6123850E-09 Z=  0.5252669E-02  Total=      0.0059698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191077E+02         XY= -0.14184501E-01         XZ=  0.12563647E-01
                YY= -0.10161565E+02         YZ=  0.26263345E-01         ZZ= -0.12210905E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46889170E-01 Y= -0.47188488E-11 Z= -0.19529397E-04   Total=     0.04688917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21314687E+01         XY=  0.44303845E+00         XZ=  0.38800093E+00
                YY=  0.12454497E+01         YZ= -0.18452609E-03         ZZ=  0.12450638E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1294160E-02 Y= -0.6085563E-09 Z=  0.5250342E-02  Total=      0.0054075
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149768E+02         XY=  0.64708003E-02         XZ=  0.30885856E-01
                YY= -0.10161564E+02         YZ=  0.26251710E-01         ZZ= -0.12210928E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49919487E-01 Y= -0.57739872E-11 Z= -0.19396564E-04   Total=     0.04991949
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21887497E+01         XY=  0.47167080E+00         XZ=  0.42327676E+00
                YY=  0.12454675E+01         YZ= -0.18327101E-03         ZZ=  0.12450831E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4939891E-02 Y= -0.6068225E-09 Z=  0.5248585E-02  Total=      0.0072076
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113315E+02         XY=  0.24699451E-01         XZ=  0.47477805E-01
                YY= -0.10161561E+02         YZ=  0.26242921E-01         ZZ= -0.12210943E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33916635E-01 Y= -0.73422414E-11 Z= -0.14847355E-04   Total=     0.03391664
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18863237E+01         XY=  0.32046576E+00         XZ=  0.29711784E+00
                YY=  0.12454569E+01         YZ= -0.14028723E-03         ZZ=  0.12451487E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6708539E-02 Y= -0.6082673E-09 Z=  0.5247428E-02  Total=      0.0085170
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095633E+02         XY=  0.33542692E-01         XZ=  0.56002026E-01
                YY= -0.10161560E+02         YZ=  0.26237139E-01         ZZ= -0.12210954E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49438571E-02 Y= -0.81753361E-11 Z= -0.12141173E-04   Total=     0.00494387
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13387893E+01         XY=  0.46712679E-01         XZ=  0.57281529E-01
                YY=  0.12454305E+01         YZ= -0.11471752E-03         ZZ=  0.12451682E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5921547E-02 Y= -0.6087008E-09 Z=  0.5246078E-02  Total=      0.0079111
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103502E+02         XY=  0.29607732E-01         XZ=  0.53183963E-01
                YY= -0.10161560E+02         YZ=  0.26230387E-01         ZZ= -0.12210969E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25975857E-01 Y= -0.74217898E-11 Z= -0.14994879E-04   Total=     0.02597586
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75448768E+00         XY= -0.24543627E+00         XZ= -0.20499185E+00
                YY=  0.12454226E+01         YZ= -0.14168113E-03         ZZ=  0.12451130E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2873875E-02 Y= -0.6058111E-09 Z=  0.5244007E-02  Total=      0.0059799
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133978E+02         XY=  0.14369373E-01         XZ=  0.40071421E-01
                YY= -0.10161561E+02         YZ=  0.26220032E-01         ZZ= -0.12210992E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47053655E-01 Y= -0.50890845E-11 Z= -0.19466338E-04   Total=     0.04705366
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35619893E+00         XY= -0.44459261E+00         XZ= -0.38966463E+00
                YY=  0.12454420E+01         YZ= -0.18393028E-03         ZZ=  0.12450573E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1276524E-02 Y= -0.6032827E-09 Z=  0.5241682E-02  Total=      0.0053949
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175484E+02         XY= -0.63826238E-02         XZ=  0.21645821E-01
                YY= -0.10161560E+02         YZ=  0.26208410E-01         ZZ= -0.12211015E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50229679E-01 Y= -0.20377785E-11 Z= -0.19388560E-04   Total=     0.05022968
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29619733E+00         XY= -0.47460169E+00         XZ= -0.42608622E+00
                YY=  0.12454599E+01         YZ= -0.18319536E-03         ZZ=  0.12450758E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4948676E-02 Y= -0.6037884E-09 Z=  0.5239922E-02  Total=      0.0072074
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212210E+02         XY= -0.24743380E-01         XZ=  0.49267938E-02
                YY= -0.10161557E+02         YZ=  0.26199607E-01         ZZ= -0.12211030E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34254988E-01 Y=  0.48467698E-12 Z= -0.14863256E-04   Total=     0.03425499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59805958E+00         XY= -0.32366273E+00         XZ= -0.30006349E+00
                YY=  0.12454496E+01         YZ= -0.14043741E-03         ZZ=  0.12451412E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6740816E-02 Y= -0.6056666E-09 Z=  0.5238766E-02  Total=      0.0085372
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230135E+02         XY= -0.33704084E-01         XZ= -0.37063472E-02
                YY= -0.10161555E+02         YZ=  0.26193827E-01         ZZ= -0.12211040E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51821942E-02 Y=  0.15238936E-11 Z= -0.12115464E-04   Total=     0.00518221
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11474274E+01         XY= -0.48964639E-01         XZ= -0.59388052E-01
                YY=  0.12454231E+01         YZ= -0.11447452E-03         ZZ=  0.12451614E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5965494E-02 Y= -0.6063890E-09 Z=  0.5237423E-02  Total=      0.0079384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222382E+02         XY= -0.29827471E-01         XZ= -0.95012077E-03
                YY= -0.10161555E+02         YZ=  0.26187114E-01         ZZ= -0.12211056E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25927739E-01 Y=  0.95038138E-12 Z= -0.14916687E-04   Total=     0.02592774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17353160E+01         XY=  0.24498163E+00         XZ=  0.20432984E+00
                YY=  0.12454150E+01         YZ= -0.14094225E-03         ZZ=  0.12451068E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2913260E-02 Y= -0.6053777E-09 Z=  0.5235362E-02  Total=      0.0059913
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191858E+02         XY= -0.14566304E-01         XZ=  0.12160630E-01
                YY= -0.10161556E+02         YZ=  0.26176806E-01         ZZ= -0.12211078E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47213802E-01 Y= -0.44183409E-12 Z= -0.19394071E-04   Total=     0.04721381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21375881E+01         XY=  0.44610577E+00         XZ=  0.39055794E+00
                YY=  0.12454343E+01         YZ= -0.18324741E-03         ZZ=  0.12450509E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1256182E-02 Y= -0.6024880E-09 Z=  0.5233041E-02  Total=      0.0053817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150166E+02         XY=  0.62809080E-02         XZ=  0.30641859E-01
                YY= -0.10161555E+02         YZ=  0.26165201E-01         ZZ= -0.12211101E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50537161E-01 Y= -0.13358667E-11 Z= -0.19370148E-04   Total=     0.05053716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22004073E+01         XY=  0.47750697E+00         XZ=  0.42814034E+00
                YY=  0.12454524E+01         YZ= -0.18302138E-03         ZZ=  0.12450687E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4954618E-02 Y= -0.6006098E-09 Z=  0.5231278E-02  Total=      0.0072052
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113186E+02         XY=  0.24773089E-01         XZ=  0.47452109E-01
                YY= -0.10161552E+02         YZ=  0.26156387E-01         ZZ= -0.12211116E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34593039E-01 Y= -0.59688132E-12 Z= -0.14871114E-04   Total=     0.03459304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18990916E+01         XY=  0.32685685E+00         XZ=  0.30244311E+00
                YY=  0.12454422E+01         YZ= -0.14051167E-03         ZZ=  0.12451338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6770304E-02 Y= -0.6005375E-09 Z=  0.5230123E-02  Total=      0.0085552
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095033E+02         XY=  0.33851517E-01         XZ=  0.56171159E-01
                YY= -0.10161551E+02         YZ=  0.26150612E-01         ZZ= -0.12211127E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54225059E-02 Y=  0.20780166E-11 Z= -0.12085040E-04   Total=     0.00542252
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13478200E+01         XY=  0.51235255E-01         XZ=  0.61049946E-01
                YY=  0.12454158E+01         YZ= -0.11418705E-03         ZZ=  0.12451547E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6006848E-02 Y= -0.5988760E-09 Z=  0.5228789E-02  Total=      0.0079638
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102667E+02         XY=  0.30034238E-01         XZ=  0.53450625E-01
                YY= -0.10161551E+02         YZ=  0.26143941E-01         ZZ= -0.12211142E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25876366E-01 Y=  0.59088958E-11 Z= -0.14835525E-04   Total=     0.02587637
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75635282E+00         XY= -0.24449623E+00         XZ= -0.20420814E+00
                YY=  0.12454074E+01         YZ= -0.14017534E-03         ZZ=  0.12451007E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2950298E-02 Y= -0.5944693E-09 Z=  0.5226737E-02  Total=      0.0060019
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133232E+02         XY=  0.14751488E-01         XZ=  0.40301357E-01
                YY= -0.10161552E+02         YZ=  0.26133683E-01         ZZ= -0.12211165E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47370891E-01 Y=  0.93346998E-11 Z= -0.19319129E-04   Total=     0.04737090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35018886E+00         XY= -0.44759006E+00         XZ= -0.39216181E+00
                YY=  0.12454266E+01         YZ= -0.18253924E-03         ZZ=  0.12450446E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1238010E-02 Y= -0.5904961E-09 Z=  0.5224420E-02  Total=      0.0053691
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175116E+02         XY= -0.61900506E-02         XZ=  0.21718753E-01
                YY= -0.10161551E+02         YZ=  0.26122097E-01         ZZ= -0.12211188E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50843185E-01 Y=  0.10746159E-10 Z= -0.19349520E-04   Total=     0.05084319
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28458897E+00         XY= -0.48039848E+00         XZ= -0.43091597E+00
                YY=  0.12454448E+01         YZ= -0.18282637E-03         ZZ=  0.12450616E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4962709E-02 Y= -0.5897014E-09 Z=  0.5222656E-02  Total=      0.0072045
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212368E+02         XY= -0.24813548E-01         XZ=  0.47820917E-02
                YY= -0.10161548E+02         YZ=  0.26113276E-01         ZZ= -0.12211203E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34932016E-01 Y=  0.93031616E-11 Z= -0.14877493E-04   Total=     0.03493202
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58525131E+00         XY= -0.33005972E+00         XZ= -0.30539229E+00
                YY=  0.12454348E+01         YZ= -0.14057186E-03         ZZ=  0.12451265E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6802102E-02 Y= -0.5912907E-09 Z=  0.5221502E-02  Total=      0.0085751
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230766E+02         XY= -0.34010514E-01         XZ= -0.40466434E-02
                YY= -0.10161546E+02         YZ=  0.26107506E-01         ZZ= -0.12211213E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56659933E-02 Y=  0.54272698E-11 Z= -0.12052418E-04   Total=     0.00566601
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11382706E+01         XY= -0.53535878E-01         XZ= -0.63193413E-01
                YY=  0.12454084E+01         YZ= -0.11387880E-03         ZZ=  0.12451480E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6050817E-02 Y= -0.5914352E-09 Z=  0.5220176E-02  Total=      0.0079914
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223253E+02         XY= -0.30254086E-01         XZ= -0.13897338E-02
                YY= -0.10161547E+02         YZ=  0.26100877E-01         ZZ= -0.12211228E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25820574E-01 Y=  0.70062819E-12 Z= -0.14749178E-04   Total=     0.02582058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17332760E+01         XY=  0.24396906E+00         XZ=  0.20349113E+00
                YY=  0.12453998E+01         YZ= -0.13935952E-03         ZZ=  0.12450948E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2990297E-02 Y= -0.5897014E-09 Z=  0.5218135E-02  Total=      0.0060142
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192647E+02         XY= -0.14951484E-01         XZ=  0.11755591E-01
                YY= -0.10161547E+02         YZ=  0.26090673E-01         ZZ= -0.12211251E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47523817E-01 Y= -0.28131184E-11 Z= -0.19235758E-04   Total=     0.04752382
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21434314E+01         XY=  0.44903500E+00         XZ=  0.39300260E+00
                YY=  0.12454188E+01         YZ= -0.18175160E-03         ZZ=  0.12450384E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1216606E-02 Y= -0.5877509E-09 Z=  0.5215822E-02  Total=      0.0053558
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150579E+02         XY=  0.60830258E-02         XZ=  0.30392084E-01
                YY= -0.10161546E+02         YZ=  0.26079110E-01         ZZ= -0.12211274E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51146731E-01 Y= -0.35300887E-11 Z= -0.19319868E-04   Total=     0.05114673
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22119117E+01         XY=  0.48326657E+00         XZ=  0.43294008E+00
                YY=  0.12454372E+01         YZ= -0.18254633E-03         ZZ=  0.12450547E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4967463E-02 Y= -0.5871730E-09 Z=  0.5214057E-02  Total=      0.0072015
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113075E+02         XY=  0.24837313E-01         XZ=  0.47419387E-01
                YY= -0.10161544E+02         YZ=  0.26070283E-01         ZZ= -0.12211289E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35271019E-01 Y= -0.11353089E-11 Z= -0.14877270E-04   Total=     0.03527102
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19118893E+01         XY=  0.33326283E+00         XZ=  0.30777817E+00
                YY=  0.12454275E+01         YZ= -0.14056983E-03         ZZ=  0.12451193E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6830655E-02 Y= -0.5879676E-09 Z=  0.5212905E-02  Total=      0.0085926
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094447E+02         XY=  0.34153272E-01         XZ=  0.56335040E-01
                YY= -0.10161542E+02         YZ=  0.26064521E-01         ZZ= -0.12211299E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59119075E-02 Y=  0.31925571E-11 Z= -0.12016009E-04   Total=     0.00591192
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13570541E+01         XY=  0.55859431E-01         XZ=  0.64899063E-01
                YY=  0.12454011E+01         YZ= -0.11353480E-03         ZZ=  0.12451414E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6091786E-02 Y= -0.5867396E-09 Z=  0.5211588E-02  Total=      0.0080169
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101836E+02         XY=  0.30458927E-01         XZ=  0.53716198E-01
                YY= -0.10161542E+02         YZ=  0.26057937E-01         ZZ= -0.12211314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25760934E-01 Y=  0.72570190E-11 Z= -0.14659851E-04   Total=     0.02576094
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75851933E+00         XY= -0.24340555E+00         XZ= -0.20330246E+00
                YY=  0.12453923E+01         YZ= -0.13851546E-03         ZZ=  0.12450889E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3027599E-02 Y= -0.5828386E-09 Z=  0.5209558E-02  Total=      0.0060254
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132477E+02         XY=  0.15137992E-01         XZ=  0.40535217E-01
                YY= -0.10161543E+02         YZ=  0.26047788E-01         ZZ= -0.12211337E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47672964E-01 Y=  0.88297440E-11 Z= -0.19148669E-04   Total=     0.04767297
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34446539E+00         XY= -0.45044423E+00         XZ= -0.39454121E+00
                YY=  0.12454111E+01         YZ= -0.18092863E-03         ZZ=  0.12450323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1197652E-02 Y= -0.5783596E-09 Z=  0.5207251E-02  Total=      0.0053432
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174731E+02         XY= -0.59882644E-02         XZ=  0.21799594E-01
                YY= -0.10161542E+02         YZ=  0.26036252E-01         ZZ= -0.12211359E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51447997E-01 Y=  0.67047982E-11 Z= -0.19286291E-04   Total=     0.05144800
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27314496E+00         XY= -0.48611312E+00         XZ= -0.43567620E+00
                YY=  0.12454296E+01         YZ= -0.18222898E-03         ZZ=  0.12450479E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4974574E-02 Y= -0.5760479E-09 Z=  0.5205485E-02  Total=      0.0072002
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212505E+02         XY= -0.24872870E-01         XZ=  0.46467635E-02
                YY= -0.10161539E+02         YZ=  0.26027423E-01         ZZ= -0.12211375E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35610071E-01 Y=  0.13288751E-11 Z= -0.14873938E-04   Total=     0.03561007
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57242373E+00         XY= -0.33646641E+00         XZ= -0.31072579E+00
                YY=  0.12454201E+01         YZ= -0.14053834E-03         ZZ=  0.12451122E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6861652E-02 Y= -0.5759034E-09 Z=  0.5204334E-02  Total=      0.0086120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231379E+02         XY= -0.34308261E-01         XZ= -0.43791638E-02
                YY= -0.10161537E+02         YZ=  0.26021669E-01         ZZ= -0.12211385E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61601204E-02 Y= -0.53081404E-11 Z= -0.11976589E-04   Total=     0.00616013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11289187E+01         XY= -0.58204703E-01         XZ= -0.67075595E-01
                YY=  0.12453938E+01         YZ= -0.11316241E-03         ZZ=  0.12451350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6135430E-02 Y= -0.5769148E-09 Z=  0.5203027E-02  Total=      0.0080446
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224117E+02         XY= -0.30677151E-01         XZ= -0.18256107E-02
                YY= -0.10161538E+02         YZ=  0.26015131E-01         ZZ= -0.12211400E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25697708E-01 Y= -0.10502298E-10 Z= -0.14565619E-04   Total=     0.02569771
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17309394E+01         XY=  0.24280815E+00         XZ=  0.20253286E+00
                YY=  0.12453847E+01         YZ= -0.13762524E-03         ZZ=  0.12450831E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3067853E-02 Y= -0.5763369E-09 Z=  0.5201009E-02  Total=      0.0060384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193440E+02         XY= -0.15339266E-01         XZ=  0.11349349E-01
                YY= -0.10161538E+02         YZ=  0.26005041E-01         ZZ= -0.12211422E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47818711E-01 Y= -0.12028715E-10 Z= -0.19054193E-04   Total=     0.04781872
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21489890E+01         XY=  0.45182134E+00         XZ=  0.39533036E+00
                YY=  0.12454034E+01         YZ= -0.18003613E-03         ZZ=  0.12450264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1175541E-02 Y= -0.5736640E-09 Z=  0.5198707E-02  Total=      0.0053300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151008E+02         XY=  0.58777034E-02         XZ=  0.30137141E-01
                YY= -0.10161537E+02         YZ=  0.25993535E-01         ZZ= -0.12211445E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51747474E-01 Y= -0.91631508E-11 Z= -0.19244827E-04   Total=     0.05174748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22232494E+01         XY=  0.48894277E+00         XZ=  0.43766976E+00
                YY=  0.12454220E+01         YZ= -0.18183734E-03         ZZ=  0.12450412E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4978480E-02 Y= -0.5712800E-09 Z=  0.5196942E-02  Total=      0.0071968
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112983E+02         XY=  0.24892400E-01         XZ=  0.47380004E-01
                YY= -0.10161535E+02         YZ=  0.25984706E-01         ZZ= -0.12211460E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35949780E-01 Y= -0.30598873E-11 Z= -0.14864671E-04   Total=     0.03594978
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19247019E+01         XY=  0.33967619E+00         XZ=  0.31311628E+00
                YY=  0.12454128E+01         YZ= -0.14045081E-03         ZZ=  0.12451053E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6889593E-02 Y= -0.5721469E-09 Z=  0.5195793E-02  Total=      0.0086292
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093875E+02         XY=  0.34447963E-01         XZ=  0.56493791E-01
                YY= -0.10161533E+02         YZ=  0.25978963E-01         ZZ= -0.12211471E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64113604E-02 Y=  0.37071464E-11 Z= -0.11933404E-04   Total=     0.00641137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13664782E+01         XY=  0.60578577E-01         XZ=  0.68822829E-01
                YY=  0.12453865E+01         YZ= -0.11275430E-03         ZZ=  0.12451286E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6176320E-02 Y= -0.5715690E-09 Z=  0.5194495E-02  Total=      0.0080703
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101008E+02         XY=  0.30881598E-01         XZ=  0.53980606E-01
                YY= -0.10161533E+02         YZ=  0.25972472E-01         ZZ= -0.12211485E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25630041E-01 Y=  0.82552540E-11 Z= -0.14467997E-04   Total=     0.02563005
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76097815E+00         XY= -0.24216879E+00         XZ= -0.20227922E+00
                YY=  0.12453772E+01         YZ= -0.13670269E-03         ZZ=  0.12450775E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3105712E-02 Y= -0.5665844E-09 Z=  0.5192489E-02  Total=      0.0060504
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131713E+02         XY=  0.15528559E-01         XZ=  0.40772793E-01
                YY= -0.10161534E+02         YZ=  0.25962443E-01         ZZ= -0.12211507E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47960081E-01 Y=  0.86664103E-11 Z= -0.18955588E-04   Total=     0.04796009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33902468E+00         XY= -0.45315709E+00         XZ= -0.39680514E+00
                YY=  0.12453958E+01         YZ= -0.17910428E-03         ZZ=  0.12450206E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1155524E-02 Y= -0.5615998E-09 Z=  0.5190195E-02  Total=      0.0053173
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174327E+02         XY= -0.57776218E-02         XZ=  0.21888077E-01
                YY= -0.10161533E+02         YZ=  0.25950971E-01         ZZ= -0.12211530E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52044073E-01 Y=  0.48559057E-11 Z= -0.19199501E-04   Total=     0.05204408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26186612E+00         XY= -0.49174523E+00         XZ= -0.44036728E+00
                YY=  0.12454144E+01         YZ= -0.18140895E-03         ZZ=  0.12450347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4984333E-02 Y= -0.5595770E-09 Z=  0.5188429E-02  Total=      0.0071947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212620E+02         XY= -0.24921665E-01         XZ=  0.45205412E-02
                YY= -0.10161531E+02         YZ=  0.25942145E-01         ZZ= -0.12211546E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36288962E-01 Y= -0.13620735E-11 Z= -0.14853177E-04   Total=     0.03628896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55958047E+00         XY= -0.34288100E+00         XZ= -0.31606301E+00
                YY=  0.12454055E+01         YZ= -0.14034219E-03         ZZ=  0.12450984E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6919516E-02 Y= -0.5608051E-09 Z=  0.5187283E-02  Total=      0.0086480
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231975E+02         XY= -0.34597580E-01         XZ= -0.47041429E-02
                YY= -0.10161529E+02         YZ=  0.25936413E-01         ZZ= -0.12211556E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66643660E-02 Y= -0.70559368E-11 Z= -0.11888933E-04   Total=     0.00666438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11193758E+01         XY= -0.62969133E-01         XZ= -0.71033111E-01
                YY=  0.12453792E+01         YZ= -0.11233420E-03         ZZ=  0.12451223E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6219374E-02 Y= -0.5610218E-09 Z=  0.5185995E-02  Total=      0.0080978
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224974E+02         XY= -0.31096870E-01         XZ= -0.22579458E-02
                YY= -0.10161529E+02         YZ=  0.25929971E-01         ZZ= -0.12211570E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25559262E-01 Y= -0.94660579E-11 Z= -0.14367643E-04   Total=     0.02555927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17283085E+01         XY=  0.24150002E+00         XZ=  0.20145624E+00
                YY=  0.12453698E+01         YZ= -0.13575463E-03         ZZ=  0.12450719E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3145968E-02 Y= -0.5577710E-09 Z=  0.5184001E-02  Total=      0.0060639
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194239E+02         XY= -0.15729840E-01         XZ=  0.10941738E-01
                YY= -0.10161530E+02         YZ=  0.25920005E-01         ZZ= -0.12211592E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48098465E-01 Y= -0.72340564E-11 Z= -0.18851541E-04   Total=     0.04809847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21542607E+01         XY=  0.45446463E+00         XZ=  0.39754175E+00
                YY=  0.12453881E+01         YZ= -0.17812131E-03         ZZ=  0.12450150E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1132945E-02 Y= -0.5530754E-09 Z=  0.5181714E-02  Total=      0.0053041
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151451E+02         XY=  0.56647226E-02         XZ=  0.29876878E-01
                YY= -0.10161529E+02         YZ=  0.25908569E-01         ZZ= -0.12211615E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52339256E-01 Y= -0.10247666E-11 Z= -0.19147424E-04   Total=     0.05233926
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22344179E+01         XY=  0.49453430E+00         XZ=  0.44232931E+00
                YY=  0.12454069E+01         YZ= -0.18091695E-03         ZZ=  0.12450282E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4987617E-02 Y= -0.5496078E-09 Z=  0.5179950E-02  Total=      0.0071908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112909E+02         XY=  0.24938081E-01         XZ=  0.47333810E-01
                YY= -0.10161526E+02         YZ=  0.25899748E-01         ZZ= -0.12211631E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36629160E-01 Y=  0.67417463E-11 Z= -0.14835921E-04   Total=     0.03662916
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19375263E+01         XY=  0.34609540E+00         XZ=  0.31845718E+00
                YY=  0.12453982E+01         YZ= -0.14017908E-03         ZZ=  0.12450916E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6947058E-02 Y= -0.5493188E-09 Z=  0.5178806E-02  Total=      0.0086650
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093318E+02         XY=  0.34735287E-01         XZ=  0.56647275E-01
                YY= -0.10161524E+02         YZ=  0.25894030E-01         ZZ= -0.12211641E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69207721E-02 Y=  0.12933996E-10 Z= -0.11840213E-04   Total=     0.00692078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13760907E+01         XY=  0.65391820E-01         XZ=  0.72821302E-01
                YY=  0.12453720E+01         YZ= -0.11187370E-03         ZZ=  0.12451161E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6260390E-02 Y= -0.5480185E-09 Z=  0.5177528E-02  Total=      0.0081240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100185E+02         XY=  0.31301946E-01         XZ=  0.54243741E-01
                YY= -0.10161525E+02         YZ=  0.25887639E-01         ZZ= -0.12211655E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25483642E-01 Y=  0.15068390E-10 Z= -0.14263247E-04   Total=     0.02548365
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76373016E+00         XY= -0.24078552E+00         XZ= -0.20113771E+00
                YY=  0.12453623E+01         YZ= -0.13476803E-03         ZZ=  0.12450664E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3184587E-02 Y= -0.5438285E-09 Z=  0.5175548E-02  Total=      0.0060768
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130942E+02         XY=  0.15922932E-01         XZ=  0.41014020E-01
                YY= -0.10161525E+02         YZ=  0.25877738E-01         ZZ= -0.12211677E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48232056E-01 Y=  0.12384475E-10 Z= -0.18742952E-04   Total=     0.04823206
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33387025E+00         XY= -0.45572688E+00         XZ= -0.39895233E+00
                YY=  0.12453805E+01         YZ= -0.17709513E-03         ZZ=  0.12450094E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1111660E-02 Y= -0.5381938E-09 Z=  0.5173269E-02  Total=      0.0052914
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173906E+02         XY= -0.55583041E-02         XZ=  0.21984181E-01
                YY= -0.10161524E+02         YZ=  0.25866342E-01         ZZ= -0.12211700E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52631161E-01 Y=  0.61637839E-11 Z= -0.19091558E-04   Total=     0.05263116
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25075725E+00         XY= -0.49729240E+00         XZ= -0.44498789E+00
                YY=  0.12453994E+01         YZ= -0.18038903E-03         ZZ=  0.12450219E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4992009E-02 Y= -0.5349429E-09 Z=  0.5171506E-02  Total=      0.0071878
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212714E+02         XY= -0.24960047E-01         XZ=  0.44034224E-02
                YY= -0.10161522E+02         YZ=  0.25857529E-01         ZZ= -0.12211715E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36968484E-01 Y= -0.84279135E-12 Z= -0.14817138E-04   Total=     0.03696849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54672539E+00         XY= -0.34930155E+00         XZ= -0.32140336E+00
                YY=  0.12453909E+01         YZ= -0.14000167E-03         ZZ=  0.12450849E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6975713E-02 Y= -0.5367489E-09 Z=  0.5170366E-02  Total=      0.0086829
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232555E+02         XY= -0.34878567E-01         XZ= -0.50216138E-02
                YY= -0.10161520E+02         YZ=  0.25851825E-01         ZZ= -0.12211725E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71786840E-02 Y= -0.56230876E-11 Z= -0.11791518E-04   Total=     0.00717869
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11096426E+01         XY= -0.67828734E-01         XZ= -0.75066693E-01
                YY=  0.12453647E+01         YZ= -0.11141374E-03         ZZ=  0.12451100E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6302678E-02 Y= -0.5388439E-09 Z=  0.5169097E-02  Total=      0.0081513
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225825E+02         XY= -0.31513391E-01         XZ= -0.26868605E-02
                YY= -0.10161520E+02         YZ=  0.25845484E-01         ZZ= -0.12211739E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25405071E-01 Y= -0.62093514E-11 Z= -0.14157751E-04   Total=     0.02540507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17253803E+01         XY=  0.24004313E+00         XZ=  0.20025910E+00
                YY=  0.12453549E+01         YZ= -0.13377141E-03         ZZ=  0.12450610E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3224695E-02 Y= -0.5374713E-09 Z=  0.5167131E-02  Total=      0.0060908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195044E+02         XY= -0.16123479E-01         XZ=  0.10532507E-01
                YY= -0.10161521E+02         YZ=  0.25835651E-01         ZZ= -0.12211761E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48362740E-01 Y= -0.25065433E-11 Z= -0.18630336E-04   Total=     0.04836274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21592400E+01         XY=  0.45696167E+00         XZ=  0.39963368E+00
                YY=  0.12453728E+01         YZ= -0.17603118E-03         ZZ=  0.12450039E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1088731E-02 Y= -0.5334259E-09 Z=  0.5164860E-02  Total=      0.0052784
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151911E+02         XY=  0.54436521E-02         XZ=  0.29610905E-01
                YY= -0.10161520E+02         YZ=  0.25824296E-01         ZZ= -0.12211784E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52921690E-01 Y=  0.37106500E-11 Z= -0.19029603E-04   Total=     0.05292169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22454098E+01         XY=  0.50003751E+00         XZ=  0.44691573E+00
                YY=  0.12453918E+01         YZ= -0.17980366E-03         ZZ=  0.12450157E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4994759E-02 Y= -0.5305362E-09 Z=  0.5163099E-02  Total=      0.0071837
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112855E+02         XY=  0.24973791E-01         XZ=  0.47280322E-01
                YY= -0.10161518E+02         YZ=  0.25815494E-01         ZZ= -0.12211799E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37308882E-01 Y=  0.96159250E-11 Z= -0.14792273E-04   Total=     0.03730888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19503572E+01         XY=  0.35251785E+00         XZ=  0.32379921E+00
                YY=  0.12453836E+01         YZ= -0.13976664E-03         ZZ=  0.12450783E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7002924E-02 Y= -0.5303918E-09 Z=  0.5161962E-02  Total=      0.0086998
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092777E+02         XY=  0.35014619E-01         XZ=  0.56794993E-01
                YY= -0.10161516E+02         YZ=  0.25809807E-01         ZZ= -0.12211809E+02
  Expectation value of momentum operator [a. u.]
    X=  0.74401173E-02 Y=  0.12590785E-10 Z= -0.11737435E-04   Total=     0.00744013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13858910E+01         XY=  0.70298920E-01         XZ=  0.76895098E-01
                YY=  0.12453575E+01         YZ= -0.11090259E-03         ZZ=  0.12451039E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6343881E-02 Y= -0.5295971E-09 Z=  0.5160704E-02  Total=      0.0081779
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099368E+02         XY=  0.31719402E-01         XZ=  0.54505187E-01
                YY= -0.10161516E+02         YZ=  0.25803518E-01         ZZ= -0.12211823E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25321452E-01 Y=  0.11361339E-10 Z= -0.14046683E-04   Total=     0.02532146
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76678072E+00         XY= -0.23925305E+00         XZ= -0.19987487E+00
                YY=  0.12453474E+01         YZ= -0.13272183E-03         ZZ=  0.12450557E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3264141E-02 Y= -0.5243958E-09 Z=  0.5158751E-02  Total=      0.0061047
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130164E+02         XY=  0.16320702E-01         XZ=  0.41258647E-01
                YY= -0.10161517E+02         YZ=  0.25793755E-01         ZZ= -0.12211845E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48488349E-01 Y=  0.65167430E-11 Z= -0.18511766E-04   Total=     0.04848835
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32901227E+00         XY= -0.45814850E+00         XZ= -0.40097792E+00
                YY=  0.12453652E+01         YZ= -0.17491078E-03         ZZ=  0.12449986E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1066099E-02 Y= -0.5199168E-09 Z=  0.5156490E-02  Total=      0.0052655
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173468E+02         XY= -0.53304971E-02         XZ=  0.22087858E-01
                YY= -0.10161516E+02         YZ=  0.25782447E-01         ZZ= -0.12211868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53208621E-01 Y=  0.20069343E-12 Z= -0.18963074E-04   Total=     0.05320862
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23983040E+00         XY= -0.50274860E+00         XZ= -0.44953274E+00
                YY=  0.12453843E+01         YZ= -0.17917508E-03         ZZ=  0.12450096E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4997597E-02 Y= -0.5191222E-09 Z=  0.5154732E-02  Total=      0.0071796
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212787E+02         XY= -0.24987987E-01         XZ=  0.42955363E-02
                YY= -0.10161513E+02         YZ=  0.25773657E-01         ZZ= -0.12211883E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37648105E-01 Y= -0.48613614E-11 Z= -0.14766121E-04   Total=     0.03764811
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53386856E+00         XY= -0.35572303E+00         XZ= -0.32674271E+00
                YY=  0.12453764E+01         YZ= -0.13951967E-03         ZZ=  0.12450718E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7030211E-02 Y= -0.5199891E-09 Z=  0.5153598E-02  Total=      0.0087168
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233117E+02         XY= -0.35151059E-01         XZ= -0.53313505E-02
                YY= -0.10161512E+02         YZ=  0.25767987E-01         ZZ= -0.12211893E+02
  Expectation value of momentum operator [a. u.]
    X= -0.77028275E-02 Y= -0.65524352E-11 Z= -0.11684758E-04   Total=     0.00770284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10997239E+01         XY= -0.72781173E-01         XZ= -0.79174707E-01
                YY=  0.12453503E+01         YZ= -0.11040501E-03         ZZ=  0.12450979E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6385309E-02 Y= -0.5201336E-09 Z=  0.5152350E-02  Total=      0.0082048
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226669E+02         XY= -0.31926547E-01         XZ= -0.31121444E-02
                YY= -0.10161512E+02         YZ=  0.25761750E-01         ZZ= -0.12211907E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25235004E-01 Y= -0.42433824E-11 Z= -0.13936703E-04   Total=     0.02523501
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17221522E+01         XY=  0.23843624E+00         XZ=  0.19893999E+00
                YY=  0.12453401E+01         YZ= -0.13168279E-03         ZZ=  0.12450505E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3304028E-02 Y= -0.5176774E-09 Z=  0.5150412E-02  Total=      0.0061191
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195855E+02         XY= -0.16520141E-01         XZ=  0.10121740E-01
                YY= -0.10161512E+02         YZ=  0.25752058E-01         ZZ= -0.12211929E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48611062E-01 Y=  0.10120978E-11 Z= -0.18391471E-04   Total=     0.04861107
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21639179E+01         XY=  0.45930797E+00         XZ=  0.40160202E+00
                YY=  0.12453576E+01         YZ= -0.17377421E-03         ZZ=  0.12449933E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1042863E-02 Y= -0.5134874E-09 Z=  0.5148160E-02  Total=      0.0052527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152387E+02         XY=  0.52143133E-02         XZ=  0.29339113E-01
                YY= -0.10161511E+02         YZ=  0.25740797E-01         ZZ= -0.12211951E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53494097E-01 Y=  0.70195998E-11 Z= -0.18892180E-04   Total=     0.05349410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22562124E+01         XY=  0.50544596E+00         XZ=  0.45142346E+00
                YY=  0.12453768E+01         YZ= -0.17850517E-03         ZZ=  0.12450035E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4999822E-02 Y= -0.5087918E-09 Z=  0.5146405E-02  Total=      0.0071752
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112822E+02         XY=  0.24999106E-01         XZ=  0.47219222E-01
                YY= -0.10161509E+02         YZ=  0.25732022E-01         ZZ= -0.12211967E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37988265E-01 Y=  0.11450591E-10 Z= -0.14734702E-04   Total=     0.03798827
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19631819E+01         XY=  0.35893709E+00         XZ=  0.32913690E+00
                YY=  0.12453691E+01         YZ= -0.13922266E-03         ZZ=  0.12450654E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7057068E-02 Y= -0.5062633E-09 Z=  0.5145275E-02  Total=      0.0087336
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092253E+02         XY=  0.35285340E-01         XZ=  0.56936464E-01
                YY= -0.10161507E+02         YZ=  0.25726371E-01         ZZ= -0.12211977E+02
  Expectation value of momentum operator [a. u.]
    X=  0.79688993E-02 Y=  0.12846408E-10 Z= -0.11626714E-04   Total=     0.00796891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13958698E+01         XY=  0.75295187E-01         XZ=  0.81040171E-01
                YY=  0.12453432E+01         YZ= -0.10985642E-03         ZZ=  0.12450920E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6426650E-02 Y= -0.5046740E-09 Z=  0.5144038E-02  Total=      0.0082318
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098558E+02         XY=  0.32133248E-01         XZ=  0.54764378E-01
                YY= -0.10161507E+02         YZ=  0.25720189E-01         ZZ= -0.12211990E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25143678E-01 Y=  0.11181080E-10 Z= -0.13820734E-04   Total=     0.02514368
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77012595E+00         XY= -0.23757333E+00         XZ= -0.19849255E+00
                YY=  0.12453327E+01         YZ= -0.13058691E-03         ZZ=  0.12450453E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3344233E-02 Y= -0.5012065E-09 Z=  0.5142115E-02  Total=      0.0061339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129381E+02         XY=  0.16721164E-01         XZ=  0.41506110E-01
                YY= -0.10161508E+02         YZ=  0.25710571E-01         ZZ= -0.12212012E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48728881E-01 Y=  0.77610600E-11 Z= -0.18264714E-04   Total=     0.04872888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32445227E+00         XY= -0.46042120E+00         XZ= -0.40288167E+00
                YY=  0.12453501E+01         YZ= -0.17257646E-03         ZZ=  0.12449882E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1018962E-02 Y= -0.4976667E-09 Z=  0.5139873E-02  Total=      0.0052399
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173014E+02         XY= -0.50948122E-02         XZ=  0.22198603E-01
                YY= -0.10161507E+02         YZ=  0.25699361E-01         ZZ= -0.12212034E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53776190E-01 Y=  0.45482341E-11 Z= -0.18816338E-04   Total=     0.05377619
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22909056E+00         XY= -0.50811136E+00         XZ= -0.45400024E+00
                YY=  0.12453693E+01         YZ= -0.17778858E-03         ZZ=  0.12449976E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5001194E-02 Y= -0.4953550E-09 Z=  0.5138121E-02  Total=      0.0071702
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212840E+02         XY= -0.25005974E-01         XZ=  0.41964599E-02
                YY= -0.10161505E+02         YZ=  0.25690603E-01         ZZ= -0.12212050E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38327525E-01 Y=  0.32461579E-11 Z= -0.14701892E-04   Total=     0.03832753
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52101563E+00         XY= -0.36214263E+00         XZ= -0.33207917E+00
                YY=  0.12453619E+01         YZ= -0.13891271E-03         ZZ=  0.12450590E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7083088E-02 Y= -0.4945603E-09 Z=  0.5136995E-02  Total=      0.0087498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233663E+02         XY= -0.35415443E-01         XZ= -0.56337100E-02
                YY= -0.10161503E+02         YZ=  0.25684971E-01         ZZ= -0.12212060E+02
  Expectation value of momentum operator [a. u.]
    X= -0.82365921E-02 Y=  0.45703922E-11 Z= -0.11570255E-04   Total=     0.00823660
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10896236E+01         XY= -0.77824517E-01         XZ= -0.83355815E-01
                YY=  0.12453360E+01         YZ= -0.10932303E-03         ZZ=  0.12450861E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6467335E-02 Y= -0.4939102E-09 Z=  0.5135769E-02  Total=      0.0082585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227506E+02         XY= -0.32336679E-01         XZ= -0.35341223E-02
                YY= -0.10161503E+02         YZ=  0.25678843E-01         ZZ= -0.12212073E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25049118E-01 Y=  0.80128609E-11 Z= -0.13706151E-04   Total=     0.02504912
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17186253E+01         XY=  0.23667987E+00         XZ=  0.19749947E+00
                YY=  0.12453254E+01         YZ= -0.12950429E-03         ZZ=  0.12450402E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3384035E-02 Y= -0.4901536E-09 Z=  0.5133860E-02  Total=      0.0061488
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196672E+02         XY= -0.16920174E-01         XZ=  0.97091213E-02
                YY= -0.10161504E+02         YZ=  0.25669299E-01         ZZ= -0.12212094E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48843373E-01 Y=  0.12165617E-10 Z= -0.18136327E-04   Total=     0.04884338
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21682934E+01         XY=  0.46150299E+00         XZ=  0.40344695E+00
                YY=  0.12453425E+01         YZ= -0.17136335E-03         ZZ=  0.12449831E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9952673E-03 Y= -0.4850245E-09 Z=  0.5131629E-02  Total=      0.0052273
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152880E+02         XY=  0.49763345E-02         XZ=  0.29061200E-01
                YY= -0.10161503E+02         YZ=  0.25658142E-01         ZZ= -0.12212117E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54056416E-01 Y=  0.15412790E-10 Z= -0.18735744E-04   Total=     0.05405642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22668244E+01         XY=  0.51075911E+00         XZ=  0.45585308E+00
                YY=  0.12453618E+01         YZ= -0.17702699E-03         ZZ=  0.12449918E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5002732E-02 Y= -0.4811235E-09 Z=  0.5129881E-02  Total=      0.0071654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112810E+02         XY=  0.25013658E-01         XZ=  0.47150263E-01
                YY= -0.10161501E+02         YZ=  0.25649405E-01         ZZ= -0.12212132E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38667370E-01 Y=  0.16648291E-10 Z= -0.14662920E-04   Total=     0.03866737
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19760014E+01         XY=  0.36535370E+00         XZ=  0.33447204E+00
                YY=  0.12453547E+01         YZ= -0.13854437E-03         ZZ=  0.12450527E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7109431E-02 Y= -0.4804734E-09 Z=  0.5128759E-02  Total=      0.0087663
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091746E+02         XY=  0.35547152E-01         XZ=  0.57071557E-01
                YY= -0.10161499E+02         YZ=  0.25643794E-01         ZZ= -0.12212142E+02
  Expectation value of momentum operator [a. u.]
    X=  0.85073784E-02 Y=  0.15695110E-10 Z= -0.11507278E-04   Total=     0.00850739
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14060320E+01         XY=  0.80383076E-01         XZ=  0.85259915E-01
                YY=  0.12453289E+01         YZ= -0.10872788E-03         ZZ=  0.12450804E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6508667E-02 Y= -0.4793175E-09 Z=  0.5127545E-02  Total=      0.0082858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097755E+02         XY=  0.32543332E-01         XZ=  0.55021356E-01
                YY= -0.10161499E+02         YZ=  0.25637722E-01         ZZ= -0.12212155E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24949868E-01 Y=  0.13263706E-10 Z= -0.13584503E-04   Total=     0.02494987
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77377436E+00         XY= -0.23574209E+00         XZ= -0.19698617E+00
                YY=  0.12453180E+01         YZ= -0.12835483E-03         ZZ=  0.12450353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3424872E-02 Y= -0.4741884E-09 Z=  0.5125652E-02  Total=      0.0061646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128592E+02         XY=  0.17124358E-01         XZ=  0.41756643E-01
                YY= -0.10161499E+02         YZ=  0.25628257E-01         ZZ= -0.12212176E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48953112E-01 Y=  0.10516856E-10 Z= -0.18000727E-04   Total=     0.04895312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32020042E+00         XY= -0.46253987E+00         XZ= -0.40465889E+00
                YY=  0.12453350E+01         YZ= -0.17008213E-03         ZZ=  0.12449782E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9702043E-03 Y= -0.4692038E-09 Z=  0.5123432E-02  Total=      0.0052145
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172544E+02         XY= -0.48510236E-02         XZ=  0.22316809E-01
                YY= -0.10161499E+02         YZ=  0.25617157E-01         ZZ= -0.12212199E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54333403E-01 Y=  0.84831224E-11 Z= -0.18649959E-04   Total=     0.05433341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21854652E+00         XY= -0.51337626E+00         XZ= -0.45838698E+00
                YY=  0.12453543E+01         YZ= -0.17621650E-03         ZZ=  0.12449861E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5002733E-02 Y= -0.4667476E-09 Z=  0.5121689E-02  Total=      0.0071595
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212873E+02         XY= -0.25013667E-01         XZ=  0.41066529E-02
                YY= -0.10161496E+02         YZ=  0.25608441E-01         ZZ= -0.12212214E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39006514E-01 Y=  0.76105749E-11 Z= -0.14622990E-04   Total=     0.03900652
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50817094E+00         XY= -0.36855815E+00         XZ= -0.33741186E+00
                YY=  0.12453474E+01         YZ= -0.13816716E-03         ZZ=  0.12450465E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7134277E-02 Y= -0.4657363E-09 Z=  0.5120571E-02  Total=      0.0087817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234192E+02         XY= -0.35671387E-01         XZ= -0.59282889E-02
                YY= -0.10161495E+02         YZ=  0.25602852E-01         ZZ= -0.12212224E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87800794E-02 Y=  0.76536119E-11 Z= -0.11447064E-04   Total=     0.00878009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10793397E+01         XY= -0.82959728E-01         XZ= -0.87612188E-01
                YY=  0.12453218E+01         YZ= -0.10815902E-03         ZZ=  0.12450746E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6548718E-02 Y= -0.4644359E-09 Z=  0.5119368E-02  Total=      0.0083123
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228337E+02         XY= -0.32743591E-01         XZ= -0.39525684E-02
                YY= -0.10161495E+02         YZ=  0.25596836E-01         ZZ= -0.12212237E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24846983E-01 Y=  0.79113407E-11 Z= -0.13465949E-04   Total=     0.02484699
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17147915E+01         XY=  0.23476997E+00         XZ=  0.19593263E+00
                YY=  0.12453108E+01         YZ= -0.12723471E-03         ZZ=  0.12450303E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3464724E-02 Y= -0.4614741E-09 Z=  0.5117490E-02  Total=      0.0061800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197496E+02         XY= -0.17323620E-01         XZ=  0.92946176E-02
                YY= -0.10161495E+02         YZ=  0.25587448E-01         ZZ= -0.12212258E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49059029E-01 Y=  0.76586692E-11 Z= -0.17865198E-04   Total=     0.04905903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21723543E+01         XY=  0.46354065E+00         XZ=  0.40516202E+00
                YY=  0.12453275E+01         YZ= -0.16880159E-03         ZZ=  0.12449733E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9458801E-03 Y= -0.4575731E-09 Z=  0.5115282E-02  Total=      0.0052020
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153391E+02         XY=  0.47293986E-02         XZ=  0.28776855E-01
                YY= -0.10161494E+02         YZ=  0.25576406E-01         ZZ= -0.12212280E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54607968E-01 Y=  0.65356159E-11 Z= -0.18560504E-04   Total=     0.05460797
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22772330E+01         XY=  0.51597052E+00         XZ=  0.46019827E+00
                YY=  0.12453469E+01         YZ= -0.17537129E-03         ZZ=  0.12449805E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5003379E-02 Y= -0.4542500E-09 Z=  0.5113543E-02  Total=      0.0071542
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112820E+02         XY=  0.25016893E-01         XZ=  0.47072911E-01
                YY= -0.10161492E+02         YZ=  0.25567715E-01         ZZ= -0.12212296E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39345675E-01 Y=  0.46980358E-11 Z= -0.14577026E-04   Total=     0.03934568
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19888060E+01         XY=  0.37176275E+00         XZ=  0.33980010E+00
                YY=  0.12453402E+01         YZ= -0.13773289E-03         ZZ=  0.12450405E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7159873E-02 Y= -0.4538165E-09 Z=  0.5112430E-02  Total=      0.0087978
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091259E+02         XY=  0.35799365E-01         XZ=  0.57199622E-01
                YY= -0.10161491E+02         YZ=  0.25562150E-01         ZZ= -0.12212306E+02
  Expectation value of momentum operator [a. u.]
    X=  0.90553342E-02 Y=  0.26760649E-11 Z= -0.11379583E-04   Total=     0.00905534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14163735E+01         XY=  0.85560509E-01         XZ=  0.89552603E-01
                YY=  0.12453147E+01         YZ= -0.10752145E-03         ZZ=  0.12450690E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6589793E-02 Y= -0.4543945E-09 Z=  0.5111239E-02  Total=      0.0083397
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096960E+02         XY=  0.32948961E-01         XZ=  0.55275483E-01
                YY= -0.10161490E+02         YZ=  0.25556192E-01         ZZ= -0.12212319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24739887E-01 Y=  0.10398285E-11 Z= -0.13339042E-04   Total=     0.02473989
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77772850E+00         XY= -0.23375806E+00         XZ= -0.19535433E+00
                YY=  0.12453035E+01         YZ= -0.12603567E-03         ZZ=  0.12450255E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3505945E-02 Y= -0.4517938E-09 Z=  0.5109378E-02  Total=      0.0061966
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127798E+02         XY=  0.17529721E-01         XZ=  0.42009734E-01
                YY= -0.10161491E+02         YZ=  0.25546886E-01         ZZ= -0.12212339E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49160596E-01 Y=  0.67290522E-13 Z= -0.17721024E-04   Total=     0.04916060
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31626518E+00         XY= -0.46450031E+00         XZ= -0.40630550E+00
                YY=  0.12453200E+01         YZ= -0.16743941E-03         ZZ=  0.12449685E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9198944E-03 Y= -0.4478206E-09 Z=  0.5107182E-02  Total=      0.0051894
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172057E+02         XY= -0.45994737E-02         XZ=  0.22442172E-01
                YY= -0.10161490E+02         YZ=  0.25535906E-01         ZZ= -0.12212361E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54879621E-01 Y= -0.39943474E-12 Z= -0.18464637E-04   Total=     0.05487962
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20821035E+00         XY= -0.51853727E+00         XZ= -0.46268728E+00
                YY=  0.12453394E+01         YZ= -0.17446554E-03         ZZ=  0.12449750E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5002230E-02 Y= -0.4442085E-09 Z=  0.5105449E-02  Total=      0.0071476
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212885E+02         XY= -0.25011151E-01         XZ=  0.40260556E-02
                YY= -0.10161488E+02         YZ=  0.25527242E-01         ZZ= -0.12212377E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39684395E-01 Y= -0.83390834E-12 Z= -0.14529403E-04   Total=     0.03968440
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49534731E+00         XY= -0.37496319E+00         XZ= -0.34273465E+00
                YY=  0.12453331E+01         YZ= -0.13728297E-03         ZZ=  0.12450344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7183745E-02 Y= -0.4438473E-09 Z=  0.5104341E-02  Total=      0.0088125
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234703E+02         XY= -0.35918729E-01         XZ= -0.62149145E-02
                YY= -0.10161486E+02         YZ=  0.25521701E-01         ZZ= -0.12212387E+02
  Expectation value of momentum operator [a. u.]
    X= -0.93327109E-02 Y= -0.17135949E-11 Z= -0.11314878E-04   Total=     0.00933272
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10688831E+01         XY= -0.88181339E-01         XZ= -0.91938388E-01
                YY=  0.12453077E+01         YZ= -0.10691011E-03         ZZ=  0.12450634E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6629387E-02 Y= -0.4441363E-09 Z=  0.5103160E-02  Total=      0.0083661
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229160E+02         XY= -0.33146935E-01         XZ= -0.43671190E-02
                YY= -0.10161486E+02         YZ=  0.25515801E-01         ZZ= -0.12212399E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24628987E-01 Y= -0.31937244E-11 Z= -0.13215917E-04   Total=     0.02462899
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17106581E+01         XY=  0.23271020E+00         XZ=  0.19424356E+00
                YY=  0.12452963E+01         YZ= -0.12487234E-03         ZZ=  0.12450207E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3546004E-02 Y= -0.4418246E-09 Z=  0.5101315E-02  Total=      0.0062127
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198326E+02         XY= -0.17730020E-01         XZ=  0.88787266E-02
                YY= -0.10161487E+02         YZ=  0.25506575E-01         ZZ= -0.12212420E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49258193E-01 Y= -0.49550398E-11 Z= -0.17578003E-04   Total=     0.04925820
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21761036E+01         XY=  0.46542247E+00         XZ=  0.40674964E+00
                YY=  0.12453125E+01         YZ= -0.16608810E-03         ZZ=  0.12449638E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8948008E-03 Y= -0.4386460E-09 Z=  0.5099132E-02  Total=      0.0051770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153919E+02         XY=  0.44740019E-02         XZ=  0.28486654E-01
                YY= -0.10161486E+02         YZ=  0.25495658E-01         ZZ= -0.12212442E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55148712E-01 Y= -0.63236573E-11 Z= -0.18366226E-04   Total=     0.05514871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22874375E+01         XY=  0.52107981E+00         XZ=  0.46445980E+00
                YY=  0.12453320E+01         YZ= -0.17353574E-03         ZZ=  0.12449696E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5001857E-02 Y= -0.4357563E-09 Z=  0.5097405E-02  Total=      0.0071416
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112852E+02         XY=  0.25009283E-01         XZ=  0.46987762E-01
                YY= -0.10161484E+02         YZ=  0.25487024E-01         ZZ= -0.12212457E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40022982E-01 Y= -0.66161520E-11 Z= -0.14476690E-04   Total=     0.04002298
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20015917E+01         XY=  0.37816237E+00         XZ=  0.34512029E+00
                YY=  0.12453259E+01         YZ= -0.13678495E-03         ZZ=  0.12450285E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7208477E-02 Y= -0.4365510E-09 Z=  0.5096302E-02  Total=      0.0088280
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090789E+02         XY=  0.36042382E-01         XZ=  0.57321220E-01
                YY= -0.10161482E+02         YZ=  0.25481509E-01         ZZ= -0.12212467E+02
  Expectation value of momentum operator [a. u.]
    X=  0.96124621E-02 Y= -0.55326829E-11 Z= -0.11243584E-04   Total=     0.00961247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14268884E+01         XY=  0.90824604E-01         XZ=  0.93916099E-01
                YY=  0.12453006E+01         YZ= -0.10623652E-03         ZZ=  0.12450579E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6670088E-02 Y= -0.4377791E-09 Z=  0.5095134E-02  Total=      0.0083935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096174E+02         XY=  0.33350438E-01         XZ=  0.55527226E-01
                YY= -0.10161482E+02         YZ=  0.25475669E-01         ZZ= -0.12212480E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24514110E-01 Y= -0.33904327E-11 Z= -0.13084801E-04   Total=     0.02451411
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78198135E+00         XY= -0.23162477E+00         XZ= -0.19360045E+00
                YY=  0.12452891E+01         YZ= -0.12363348E-03         ZZ=  0.12450161E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3587484E-02 Y= -0.4353951E-09 Z=  0.5093306E-02  Total=      0.0062299
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126999E+02         XY=  0.17937420E-01         XZ=  0.42265702E-01
                YY= -0.10161483E+02         YZ=  0.25466528E-01         ZZ= -0.12212500E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49351760E-01 Y= -0.10543912E-11 Z= -0.17426295E-04   Total=     0.04935176
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31263851E+00         XY= -0.46630655E+00         XZ= -0.40782615E+00
                YY=  0.12453051E+01         YZ= -0.16465463E-03         ZZ=  0.12449593E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8680319E-03 Y= -0.4312774E-09 Z=  0.5091136E-02  Total=      0.0051646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171556E+02         XY= -0.43401613E-02         XZ=  0.22574801E-01
                YY= -0.10161482E+02         YZ=  0.25455678E-01         ZZ= -0.12212522E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55415320E-01 Y=  0.42739190E-12 Z= -0.18260963E-04   Total=     0.05541532
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19807308E+00         XY= -0.52359890E+00         XZ= -0.46690682E+00
                YY=  0.12453246E+01         YZ= -0.17254109E-03         ZZ=  0.12449644E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4999723E-02 Y= -0.4284600E-09 Z=  0.5089415E-02  Total=      0.0071344
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212876E+02         XY= -0.24998619E-01         XZ=  0.39545184E-02
                YY= -0.10161480E+02         YZ=  0.25447075E-01         ZZ= -0.12212537E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40361686E-01 Y=  0.32314955E-12 Z= -0.14421739E-04   Total=     0.04036169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48253496E+00         XY= -0.38136266E+00         XZ= -0.34805397E+00
                YY=  0.12453188E+01         YZ= -0.13626568E-03         ZZ=  0.12450227E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7231576E-02 Y= -0.4293269E-09 Z=  0.5088318E-02  Total=      0.0088423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235198E+02         XY= -0.36157881E-01         XZ= -0.64940163E-02
                YY= -0.10161478E+02         YZ=  0.25441587E-01         ZZ= -0.12212547E+02
  Expectation value of momentum operator [a. u.]
    X= -0.98950260E-02 Y= -0.13901239E-11 Z= -0.11174820E-04   Total=     0.00989503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10582437E+01         XY= -0.93494446E-01         XZ= -0.96340880E-01
                YY=  0.12452937E+01         YZ= -0.10558675E-03         ZZ=  0.12450525E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6709467E-02 Y= -0.4313497E-09 Z=  0.5087161E-02  Total=      0.0084200
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229978E+02         XY= -0.33547337E-01         XZ= -0.47784674E-02
                YY= -0.10161478E+02         YZ=  0.25435805E-01         ZZ= -0.12212560E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24394623E-01 Y= -0.39517759E-11 Z= -0.12957937E-04   Total=     0.02439463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17062157E+01         XY=  0.23049579E+00         XZ=  0.19242657E+00
                YY=  0.12452819E+01         YZ= -0.12243479E-03         ZZ=  0.12450114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3628035E-02 Y= -0.4312774E-09 Z=  0.5085350E-02  Total=      0.0062469
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199163E+02         XY= -0.18140176E-01         XZ=  0.84605534E-02
                YY= -0.10161479E+02         YZ=  0.25426748E-01         ZZ= -0.12212580E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49440476E-01 Y= -0.61200459E-11 Z= -0.17276926E-04   Total=     0.04944048
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21795342E+01         XY=  0.46714480E+00         XZ=  0.40820592E+00
                YY=  0.12452977E+01         YZ= -0.16324334E-03         ZZ=  0.12449548E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8418481E-03 Y= -0.4291102E-09 Z=  0.5083194E-02  Total=      0.0051524
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154465E+02         XY=  0.42092384E-02         XZ=  0.28189603E-01
                YY= -0.10161478E+02         YZ=  0.25415966E-01         ZZ= -0.12212601E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55678467E-01 Y= -0.67359297E-11 Z= -0.18154636E-04   Total=     0.05567847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22974345E+01         XY=  0.52608527E+00         XZ=  0.46863645E+00
                YY=  0.12453173E+01         YZ= -0.17153650E-03         ZZ=  0.12449592E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4997986E-02 Y= -0.4259316E-09 Z=  0.5081480E-02  Total=      0.0071275
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112907E+02         XY=  0.24989929E-01         XZ=  0.46893864E-01
                YY= -0.10161476E+02         YZ=  0.25407397E-01         ZZ= -0.12212617E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40699404E-01 Y= -0.52927906E-11 Z= -0.14362877E-04   Total=     0.04069941
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20143609E+01         XY=  0.38455364E+00         XZ=  0.35043470E+00
                YY=  0.12453117E+01         YZ= -0.13570956E-03         ZZ=  0.12450170E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7255088E-02 Y= -0.4267262E-09 Z=  0.5080388E-02  Total=      0.0088570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090340E+02         XY=  0.36275441E-01         XZ=  0.57435584E-01
                YY= -0.10161474E+02         YZ=  0.25401937E-01         ZZ= -0.12212626E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10179217E-01 Y= -0.22355162E-11 Z= -0.11099891E-04   Total=     0.01017922
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14375854E+01         XY=  0.96179664E-01         XZ=  0.98355868E-01
                YY=  0.12452867E+01         YZ= -0.10487878E-03         ZZ=  0.12450472E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6749453E-02 Y= -0.4260761E-09 Z=  0.5079244E-02  Total=      0.0084471
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095397E+02         XY=  0.33747263E-01         XZ=  0.55776137E-01
                YY= -0.10161474E+02         YZ=  0.25396217E-01         ZZ= -0.12212639E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24271755E-01 Y=  0.11718634E-11 Z= -0.12822604E-04   Total=     0.02427176
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78654769E+00         XY= -0.22933485E+00         XZ= -0.19171617E+00
                YY=  0.12452748E+01         YZ= -0.12115603E-03         ZZ=  0.12450070E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3669466E-02 Y= -0.4212359E-09 Z=  0.5077450E-02  Total=      0.0062646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126196E+02         XY=  0.18347326E-01         XZ=  0.42524502E-01
                YY= -0.10161475E+02         YZ=  0.25387248E-01         ZZ= -0.12212659E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49525582E-01 Y=  0.33757108E-11 Z= -0.17117682E-04   Total=     0.04952558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30933975E+00         XY= -0.46794893E+00         XZ= -0.40921063E+00
                YY=  0.12452904E+01         YZ= -0.16173862E-03         ZZ=  0.12449506E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8145585E-03 Y= -0.4174072E-09 Z=  0.5075308E-02  Total=      0.0051403
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171037E+02         XY= -0.40727944E-02         XZ=  0.22715088E-01
                YY= -0.10161474E+02         YZ=  0.25376538E-01         ZZ= -0.12212680E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55939385E-01 Y=  0.32334727E-11 Z= -0.18040054E-04   Total=     0.05593939
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18815586E+00         XY= -0.52855059E+00         XZ= -0.47103500E+00
                YY=  0.12453100E+01         YZ= -0.17045378E-03         ZZ=  0.12449542E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4995074E-02 Y= -0.4148065E-09 Z=  0.5073601E-02  Total=      0.0071198
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212846E+02         XY= -0.24975372E-01         XZ=  0.38928389E-02
                YY= -0.10161472E+02         YZ=  0.25368004E-01         ZZ= -0.12212696E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41037357E-01 Y=  0.56579276E-12 Z= -0.14300830E-04   Total=     0.04103736
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46975343E+00         XY= -0.38774683E+00         XZ= -0.35336035E+00
                YY=  0.12453046E+01         YZ= -0.13512326E-03         ZZ=  0.12450114E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7277562E-02 Y= -0.4144453E-09 Z=  0.5072515E-02  Total=      0.0088709
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235674E+02         XY= -0.36387813E-01         XZ= -0.67644812E-02
                YY= -0.10161470E+02         YZ=  0.25362573E-01         ZZ= -0.12212705E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10466250E-01 Y= -0.37041237E-11 Z= -0.11027556E-04   Total=     0.01046626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10474362E+01         XY= -0.98891733E-01         XZ= -0.10081283E+00
                YY=  0.12452798E+01         YZ= -0.10419533E-03         ZZ=  0.12450419E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6788713E-02 Y= -0.4148065E-09 Z=  0.5071383E-02  Total=      0.0084738
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230787E+02         XY= -0.33943567E-01         XZ= -0.51853177E-02
                YY= -0.10161470E+02         YZ=  0.25356913E-01         ZZ= -0.12212718E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24144285E-01 Y= -0.79119560E-11 Z= -0.12692701E-04   Total=     0.02414429
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17014716E+01         XY=  0.22813043E+00         XZ=  0.19048496E+00
                YY=  0.12452678E+01         YZ= -0.11992871E-03         ZZ=  0.12450025E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3710563E-02 Y= -0.4137229E-09 Z=  0.5069606E-02  Total=      0.0062825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200005E+02         XY= -0.18552819E-01         XZ=  0.80414263E-02
                YY= -0.10161471E+02         YZ=  0.25348030E-01         ZZ= -0.12212737E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49605838E-01 Y= -0.10366130E-10 Z= -0.16962610E-04   Total=     0.04960584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21826452E+01         XY=  0.46870724E+00         XZ=  0.40953032E+00
                YY=  0.12452831E+01         YZ= -0.16027352E-03         ZZ=  0.12449463E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7872539E-03 Y= -0.4110500E-09 Z=  0.5067479E-02  Total=      0.0051283
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155027E+02         XY=  0.39362677E-02         XZ=  0.27886923E-01
                YY= -0.10161470E+02         YZ=  0.25337392E-01         ZZ= -0.12212759E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56196807E-01 Y= -0.10099104E-10 Z= -0.17926153E-04   Total=     0.05619681
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23072159E+01         XY=  0.53098288E+00         XZ=  0.47272425E+00
                YY=  0.12453027E+01         YZ= -0.16937768E-03         ZZ=  0.12449493E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4991953E-02 Y= -0.4077269E-09 Z=  0.5065780E-02  Total=      0.0071121
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112984E+02         XY=  0.24959761E-01         XZ=  0.46792215E-01
                YY= -0.10161468E+02         YZ=  0.25328896E-01         ZZ= -0.12212774E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41374244E-01 Y= -0.73159801E-11 Z= -0.14235968E-04   Total=     0.04137425
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20271005E+01         XY=  0.39092995E+00         XZ=  0.35573690E+00
                YY=  0.12452976E+01         YZ= -0.13451047E-03         ZZ=  0.12450059E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7299836E-02 Y= -0.4068600E-09 Z=  0.5064700E-02  Total=      0.0088847
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089908E+02         XY=  0.36499176E-01         XZ=  0.57543426E-01
                YY= -0.10161466E+02         YZ=  0.25323497E-01         ZZ= -0.12212784E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10754790E-01 Y= -0.33229667E-11 Z= -0.10949390E-04   Total=     0.01075480
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14484494E+01         XY=  0.10161804E+00         XZ=  0.10286428E+00
                YY=  0.12452730E+01         YZ= -0.10345677E-03         ZZ=  0.12450368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6827954E-02 Y= -0.4068600E-09 Z=  0.5063580E-02  Total=      0.0085006
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094628E+02         XY=  0.34139770E-01         XZ=  0.56022617E-01
                YY= -0.10161466E+02         YZ=  0.25317899E-01         ZZ= -0.12212796E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24013585E-01 Y=  0.44571589E-13 Z= -0.12554145E-04   Total=     0.02401359
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79141314E+00         XY= -0.22689550E+00         XZ= -0.18970904E+00
                YY=  0.12452608E+01         YZ= -0.11861948E-03         ZZ=  0.12449982E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3751902E-02 Y= -0.4035370E-09 Z=  0.5061822E-02  Total=      0.0063007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125388E+02         XY=  0.18759507E-01         XZ=  0.42786246E-01
                YY= -0.10161467E+02         YZ=  0.25309106E-01         ZZ= -0.12212815E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49682660E-01 Y=  0.12415563E-11 Z= -0.16797295E-04   Total=     0.04968266
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30635764E+00         XY= -0.46943310E+00         XZ= -0.41046541E+00
                YY=  0.12452758E+01         YZ= -0.15871143E-03         ZZ=  0.12449422E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7594991E-03 Y= -0.3986246E-09 Z=  0.5059709E-02  Total=      0.0051164
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170503E+02         XY= -0.37974973E-02         XZ=  0.22862910E-01
                YY= -0.10161466E+02         YZ=  0.25298544E-01         ZZ= -0.12212837E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56452193E-01 Y= -0.28674402E-12 Z= -0.17803699E-04   Total=     0.05645220
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17845155E+00         XY= -0.53339593E+00         XZ= -0.47507657E+00
                YY=  0.12452954E+01         YZ= -0.16822057E-03         ZZ=  0.12449445E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4988329E-02 Y= -0.3975410E-09 Z=  0.5058018E-02  Total=      0.0071040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212795E+02         XY= -0.24941649E-01         XZ=  0.38407250E-02
                YY= -0.10161464E+02         YZ=  0.25290088E-01         ZZ= -0.12212852E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41711576E-01 Y= -0.38435925E-11 Z= -0.14167841E-04   Total=     0.04171158
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45699953E+00         XY= -0.39411727E+00         XZ= -0.35865666E+00
                YY=  0.12452907E+01         YZ= -0.13386672E-03         ZZ=  0.12450005E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7321762E-02 Y= -0.3997082E-09 Z=  0.5056944E-02  Total=      0.0088984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236132E+02         XY= -0.36608813E-01         XZ= -0.70266986E-02
                YY= -0.10161462E+02         YZ=  0.25284720E-01         ZZ= -0.12212861E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11046394E-01 Y= -0.77824403E-11 Z= -0.10874005E-04   Total=     0.01104640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10364604E+01         XY= -0.10437330E+00         XZ= -0.10535526E+00
                YY=  0.12452662E+01         YZ= -0.10274452E-03         ZZ=  0.12450316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6867182E-02 Y= -0.4009363E-09 Z=  0.5055837E-02  Total=      0.0085276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231588E+02         XY= -0.34335910E-01         XZ= -0.55880843E-02
                YY= -0.10161462E+02         YZ=  0.25279183E-01         ZZ= -0.12212873E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23878059E-01 Y= -0.10237343E-10 Z= -0.12421379E-04   Total=     0.02387806
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16964275E+01         XY=  0.22561496E+00         XZ=  0.18841929E+00
                YY=  0.12452538E+01         YZ= -0.11736510E-03         ZZ=  0.12449939E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3793638E-02 Y= -0.3994192E-09 Z=  0.5054096E-02  Total=      0.0063195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200852E+02         XY= -0.18968189E-01         XZ=  0.76209764E-02
                YY= -0.10161463E+02         YZ=  0.25270478E-01         ZZ= -0.12212892E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49754431E-01 Y= -0.99536098E-11 Z= -0.16636458E-04   Total=     0.04975443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21854395E+01         XY=  0.47011124E+00         XZ=  0.41072483E+00
                YY=  0.12452686E+01         YZ= -0.15719183E-03         ZZ=  0.12449381E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7309857E-03 Y= -0.3964574E-09 Z=  0.5051999E-02  Total=      0.0051046
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155606E+02         XY=  0.36549266E-02         XZ=  0.27578362E-01
                YY= -0.10161462E+02         YZ=  0.25259993E-01         ZZ= -0.12212914E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56703946E-01 Y= -0.68436261E-11 Z= -0.17681955E-04   Total=     0.05670395
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23167859E+01         XY=  0.53577464E+00         XZ=  0.47672660E+00
                YY=  0.12452882E+01         YZ= -0.16707032E-03         ZZ=  0.12449398E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4983748E-02 Y= -0.3945791E-09 Z=  0.5050316E-02  Total=      0.0070953
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113082E+02         XY=  0.24918739E-01         XZ=  0.46682752E-01
                YY= -0.10161460E+02         YZ=  0.25251579E-01         ZZ= -0.12212929E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42047812E-01 Y= -0.20191755E-11 Z= -0.14096601E-04   Total=     0.04204781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20398161E+01         XY=  0.39729424E+00         XZ=  0.36103167E+00
                YY=  0.12452837E+01         YZ= -0.13319359E-03         ZZ=  0.12449952E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7342745E-02 Y= -0.3956627E-09 Z=  0.5049249E-02  Total=      0.0089113
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089495E+02         XY=  0.36713724E-01         XZ=  0.57644935E-01
                YY= -0.10161459E+02         YZ=  0.25246244E-01         ZZ= -0.12212938E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11339620E-01 Y=  0.27089372E-11 Z= -0.10792288E-04   Total=     0.01133962
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14594884E+01         XY=  0.10714388E+00         XZ=  0.10744736E+00
                YY=  0.12452594E+01         YZ= -0.10197232E-03         ZZ=  0.12450267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6905666E-02 Y= -0.3953737E-09 Z=  0.5048155E-02  Total=      0.0085541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093867E+02         XY=  0.34528328E-01         XZ=  0.56267156E-01
                YY= -0.10161458E+02         YZ=  0.25240771E-01         ZZ= -0.12212950E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23739028E-01 Y=  0.56311816E-11 Z= -0.12279402E-04   Total=     0.02373903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79658850E+00         XY= -0.22430131E+00         XZ= -0.18757222E+00
                YY=  0.12452469E+01         YZ= -0.11602348E-03         ZZ=  0.12449898E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3834921E-02 Y= -0.3908226E-09 Z=  0.5046432E-02  Total=      0.0063382
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124574E+02         XY=  0.19174602E-01         XZ=  0.43051739E-01
                YY= -0.10161459E+02         YZ=  0.25232159E-01         ZZ= -0.12212969E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49822347E-01 Y=  0.58758520E-11 Z= -0.16464794E-04   Total=     0.04982235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30370438E+00         XY= -0.47075296E+00         XZ= -0.41158366E+00
                YY=  0.12452615E+01         YZ= -0.15556971E-03         ZZ=  0.12449343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7026735E-03 Y= -0.3841042E-09 Z=  0.5044351E-02  Total=      0.0050931
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169951E+02         XY= -0.35133693E-02         XZ=  0.23019342E-01
                YY= -0.10161458E+02         YZ=  0.25221754E-01         ZZ= -0.12212990E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56953147E-01 Y=  0.37536864E-11 Z= -0.17551019E-04   Total=     0.05695315
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16897143E+00         XY= -0.53812926E+00         XZ= -0.47902599E+00
                YY=  0.12452811E+01         YZ= -0.16583306E-03         ZZ=  0.12449352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4979270E-02 Y= -0.3789751E-09 Z=  0.5042677E-02  Total=      0.0070867
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212720E+02         XY= -0.24896353E-01         XZ=  0.37994284E-02
                YY= -0.10161456E+02         YZ=  0.25213384E-01         ZZ= -0.12213005E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42383954E-01 Y=  0.56848778E-12 Z= -0.14021474E-04   Total=     0.04238396
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44428059E+00         XY= -0.40047033E+00         XZ= -0.36394000E+00
                YY=  0.12452768E+01         YZ= -0.13248372E-03         ZZ=  0.12449900E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7363941E-02 Y= -0.3785416E-09 Z=  0.5041617E-02  Total=      0.0089244
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236570E+02         XY= -0.36819709E-01         XZ= -0.72793838E-02
                YY= -0.10161455E+02         YZ=  0.25208083E-01         ZZ= -0.12213015E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11635428E-01 Y= -0.20038536E-11 Z= -0.10712976E-04   Total=     0.01163543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10253167E+01         XY= -0.10993886E+00         XZ= -0.10996901E+00
                YY=  0.12452527E+01         YZ= -0.10122297E-03         ZZ=  0.12450217E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=    -0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6944657E-02 Y= -0.3800587E-09 Z=  0.5040535E-02  Total=      0.0085811
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232378E+02         XY= -0.34723286E-01         XZ= -0.59856201E-02
                YY= -0.10161454E+02         YZ=  0.25202672E-01         ZZ= -0.12213026E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23595535E-01 Y= -0.26765918E-11 Z= -0.12143302E-04   Total=     0.02359554
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16910757E+01         XY=  0.22294550E+00         XZ=  0.18622464E+00
                YY=  0.12452401E+01         YZ= -0.11473759E-03         ZZ=  0.12449857E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3877094E-02 Y= -0.3785416E-09 Z=  0.5038831E-02  Total=      0.0063578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201702E+02         XY= -0.19385470E-01         XZ=  0.72000532E-02
                YY= -0.10161455E+02         YZ=  0.25194151E-01         ZZ= -0.12213045E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49885430E-01 Y= -0.11055121E-11 Z= -0.16298177E-04   Total=     0.04988543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21879016E+01         XY=  0.47134900E+00         XZ=  0.41178099E+00
                YY=  0.12452543E+01         YZ= -0.15399546E-03         ZZ=  0.12449304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6731284E-03 Y= -0.3737738E-09 Z=  0.5036766E-02  Total=      0.0050815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156201E+02         XY=  0.33656400E-02         XZ=  0.27264358E-01
                YY= -0.10161454E+02         YZ=  0.25183827E-01         ZZ= -0.12213066E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57198792E-01 Y=  0.20030524E-11 Z= -0.17421654E-04   Total=     0.05719880
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23261238E+01         XY=  0.54045026E+00         XZ=  0.48063293E+00
                YY=  0.12452739E+01         YZ= -0.16461076E-03         ZZ=  0.12449307E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4973369E-02 Y= -0.3708119E-09 Z=  0.5035101E-02  Total=      0.0070772
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113201E+02         XY=  0.24866841E-01         XZ=  0.46565467E-01
                YY= -0.10161452E+02         YZ=  0.25175503E-01         ZZ= -0.12213081E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42718980E-01 Y=  0.52562716E-11 Z= -0.13944162E-04   Total=     0.04271898
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20524866E+01         XY=  0.40363586E+00         XZ=  0.36630841E+00
                YY=  0.12452700E+01         YZ= -0.13175319E-03         ZZ=  0.12449848E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7383732E-02 Y= -0.3714621E-09 Z=  0.5034048E-02  Total=      0.0089365
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089101E+02         XY=  0.36918660E-01         XZ=  0.57739708E-01
                YY= -0.10161451E+02         YZ=  0.25170237E-01         ZZ= -0.12213091E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11932797E-01 Y=  0.72252582E-11 Z= -0.10628188E-04   Total=     0.01193280
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14706855E+01         XY=  0.11274859E+00         XZ=  0.11209666E+00
                YY=  0.12452460E+01         YZ= -0.10042176E-03         ZZ=  0.12450169E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6982447E-02 Y= -0.3711731E-09 Z=  0.5032979E-02  Total=      0.0086073
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093115E+02         XY=  0.34912232E-01         XZ=  0.56509080E-01
                YY= -0.10161451E+02         YZ=  0.25164891E-01         ZZ= -0.12213102E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23448579E-01 Y=  0.70750451E-11 Z= -0.11998675E-04   Total=     0.02344858
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80206442E+00         XY= -0.22155696E+00         XZ= -0.18531042E+00
                YY=  0.12452333E+01         YZ= -0.11337099E-03         ZZ=  0.12449817E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3918362E-02 Y= -0.3683557E-09 Z=  0.5031293E-02  Total=      0.0063771
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123755E+02         XY=  0.19591810E-01         XZ=  0.43320203E-01
                YY= -0.10161451E+02         YZ=  0.25156465E-01         ZZ= -0.12213121E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49944636E-01 Y=  0.48919864E-11 Z= -0.16121091E-04   Total=     0.04994464
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30138012E+00         XY= -0.47190842E+00         XZ= -0.41256569E+00
                YY=  0.12452473E+01         YZ= -0.15232219E-03         ZZ=  0.12449267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6442248E-03 Y= -0.3651771E-09 Z=  0.5029245E-02  Total=      0.0050703
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169382E+02         XY= -0.32211259E-02         XZ=  0.23183677E-01
                YY= -0.10161450E+02         YZ=  0.25146225E-01         ZZ= -0.12213141E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57441780E-01 Y=  0.15824681E-11 Z= -0.17282966E-04   Total=     0.05744178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15972434E+00         XY= -0.54274617E+00         XZ= -0.48287947E+00
                YY=  0.12452668E+01         YZ= -0.16330034E-03         ZZ=  0.12449264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4967993E-02 Y= -0.3638768E-09 Z=  0.5027590E-02  Total=      0.0070681
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212623E+02         XY= -0.24839968E-01         XZ=  0.37684507E-02
                YY= -0.10161449E+02         YZ=  0.25137950E-01         ZZ= -0.12213157E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43053718E-01 Y= -0.15847367E-11 Z= -0.13862355E-04   Total=     0.04305372
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43161124E+00         XY= -0.40679868E+00         XZ= -0.36920365E+00
                YY=  0.12452631E+01         YZ= -0.13098029E-03         ZZ=  0.12449798E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7404136E-02 Y= -0.3648159E-09 Z=  0.5026544E-02  Total=      0.0089492
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236988E+02         XY= -0.37020682E-01         XZ= -0.75227467E-02
                YY= -0.10161447E+02         YZ=  0.25132720E-01         ZZ= -0.12213166E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12232474E-01 Y= -0.35589866E-11 Z= -0.10544988E-04   Total=     0.01223248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10140219E+01         XY= -0.11558013E+00         XZ= -0.11464606E+00
                YY=  0.12452394E+01         YZ= -0.99635728E-04         ZZ=  0.12450121E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7021114E-02 Y= -0.3648159E-09 Z=  0.5025488E-02  Total=      0.0086343
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233158E+02         XY= -0.35105571E-01         XZ= -0.63778256E-02
                YY= -0.10161447E+02         YZ=  0.25127438E-01         ZZ= -0.12213177E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23297511E-01 Y= -0.39430108E-11 Z= -0.11859288E-04   Total=     0.02329751
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16854312E+01         XY=  0.22012958E+00         XZ=  0.18390883E+00
                YY=  0.12452265E+01         YZ= -0.11205406E-03         ZZ=  0.12449778E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3960856E-02 Y= -0.3622152E-09 Z=  0.5023821E-02  Total=      0.0063974
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202555E+02         XY= -0.19804283E-01         XZ=  0.67790399E-02
                YY= -0.10161447E+02         YZ=  0.25119104E-01         ZZ= -0.12213195E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49999438E-01 Y= -0.30961933E-11 Z= -0.15948854E-04   Total=     0.04999944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21900428E+01         XY=  0.47242622E+00         XZ=  0.41270540E+00
                YY=  0.12452403E+01         YZ= -0.15069486E-03         ZZ=  0.12449231E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6137939E-03 Y= -0.3593256E-09 Z=  0.5021790E-02  Total=      0.0050592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156810E+02         XY=  0.30689677E-02         XZ=  0.26945530E-01
                YY= -0.10161447E+02         YZ=  0.25108949E-01         ZZ= -0.12213216E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57681729E-01 Y= -0.18848509E-11 Z= -0.17146144E-04   Total=     0.05768173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23352368E+01         XY=  0.54501335E+00         XZ=  0.48444829E+00
                YY=  0.12452598E+01         YZ= -0.16200760E-03         ZZ=  0.12449221E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4960948E-02 Y= -0.3573029E-09 Z=  0.5020145E-02  Total=      0.0070578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113341E+02         XY=  0.24804740E-01         XZ=  0.46441159E-01
                YY= -0.10161445E+02         YZ=  0.25100725E-01         ZZ= -0.12213231E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43387953E-01 Y= -0.12259451E-11 Z= -0.13779044E-04   Total=     0.04338796
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20651158E+01         XY=  0.40995675E+00         XZ=  0.37157070E+00
                YY=  0.12452563E+01         YZ= -0.13019310E-03         ZZ=  0.12449749E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7422945E-02 Y= -0.3578085E-09 Z=  0.5019107E-02  Total=      0.0089606
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088724E+02         XY=  0.37114721E-01         XZ=  0.57828677E-01
                YY= -0.10161443E+02         YZ=  0.25095533E-01         ZZ= -0.12213240E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12534417E-01 Y= -0.16503509E-11 Z= -0.10457166E-04   Total=     0.01253442
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14820423E+01         XY=  0.11843307E+00         XZ=  0.11681448E+00
                YY=  0.12452328E+01         YZ= -0.98805908E-04         ZZ=  0.12450075E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7058452E-02 Y= -0.3584587E-09 Z=  0.5018064E-02  Total=      0.0086604
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092370E+02         XY=  0.35292257E-01         XZ=  0.56749406E-01
                YY= -0.10161443E+02         YZ=  0.25090316E-01         ZZ= -0.12213251E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23142207E-01 Y= -0.30904785E-11 Z= -0.11712052E-04   Total=     0.02314221
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80784148E+00         XY= -0.21866217E+00         XZ= -0.18292255E+00
                YY=  0.12452198E+01         YZ= -0.11066288E-03         ZZ=  0.12449740E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4002382E-02 Y= -0.3556413E-09 Z=  0.5016416E-02  Total=      0.0064174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122931E+02         XY=  0.20011909E-01         XZ=  0.43592677E-01
                YY= -0.10161443E+02         YZ=  0.25082079E-01         ZZ= -0.12213270E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50049570E-01 Y= -0.49715852E-11 Z= -0.15766237E-04   Total=     0.05004957
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29938404E+00         XY= -0.47289991E+00         XZ= -0.41341190E+00
                YY=  0.12452333E+01         YZ= -0.14896939E-03         ZZ=  0.12449196E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5840052E-03 Y= -0.3506567E-09 Z=  0.5014403E-02  Total=      0.0050483
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168795E+02         XY= -0.29200281E-02         XZ=  0.23356895E-01
                YY= -0.10161443E+02         YZ=  0.25072012E-01         ZZ= -0.12213290E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57918270E-01 Y= -0.65381073E-11 Z= -0.16999283E-04   Total=     0.05791827
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15070691E+00         XY= -0.54724834E+00         XZ= -0.48663944E+00
                YY=  0.12452528E+01         YZ= -0.16062000E-03         ZZ=  0.12449181E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4954374E-02 Y= -0.3475504E-09 Z=  0.5012769E-02  Total=      0.0070480
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212502E+02         XY= -0.24771874E-01         XZ=  0.37486067E-02
                YY= -0.10161441E+02         YZ=  0.25063841E-01         ZZ= -0.12213305E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43721259E-01 Y= -0.72387184E-11 Z= -0.13690005E-04   Total=     0.04372126
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41898410E+00         XY= -0.41310603E+00         XZ= -0.37445258E+00
                YY=  0.12452496E+01         YZ= -0.12935186E-03         ZZ=  0.12449702E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7442266E-02 Y= -0.3486340E-09 Z=  0.5011738E-02  Total=      0.0089724
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237384E+02         XY= -0.37211330E-01         XZ= -0.77562495E-02
                YY= -0.10161440E+02         YZ=  0.25058688E-01         ZZ= -0.12213314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12838184E-01 Y= -0.69739859E-11 Z= -0.10369955E-04   Total=     0.01283819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10025636E+01         XY= -0.12130325E+00         XZ= -0.11939393E+00
                YY=  0.12452263E+01         YZ= -0.97981934E-04         ZZ=  0.12450029E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7096536E-02 Y= -0.3505122E-09 Z=  0.5010707E-02  Total=      0.0086872
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233928E+02         XY= -0.35482682E-01         XZ= -0.67645366E-02
                YY= -0.10161439E+02         YZ=  0.25053535E-01         ZZ= -0.12213325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22983093E-01 Y= -0.60968683E-11 Z= -0.11570173E-04   Total=     0.02298310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16794772E+01         XY=  0.21715876E+00         XZ=  0.18146234E+00
                YY=  0.12452132E+01         YZ= -0.10932234E-03         ZZ=  0.12449702E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4044986E-02 Y= -0.3490674E-09 Z=  0.5009079E-02  Total=      0.0064384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203412E+02         XY= -0.20224931E-01         XZ=  0.63576759E-02
                YY= -0.10161440E+02         YZ=  0.25045393E-01         ZZ= -0.12213343E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50095427E-01 Y= -0.51827499E-11 Z= -0.15590062E-04   Total=     0.05009543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21918438E+01         XY=  0.47333319E+00         XZ=  0.41348786E+00
                YY=  0.12452264E+01         YZ= -0.14730478E-03         ZZ=  0.12449161E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5528416E-03 Y= -0.3464667E-09 Z=  0.5007083E-02  Total=      0.0050375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157435E+02         XY=  0.27642060E-02         XZ=  0.26621208E-01
                YY= -0.10161439E+02         YZ=  0.25035415E-01         ZZ= -0.12213363E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58151766E-01 Y= -0.47014309E-11 Z= -0.16857047E-04   Total=     0.05815177
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23441063E+01         XY=  0.54945456E+00         XZ=  0.48816347E+00
                YY=  0.12452458E+01         YZ= -0.15927605E-03         ZZ=  0.12449140E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4946280E-02 Y= -0.3435049E-09 Z=  0.5005460E-02  Total=      0.0070371
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113503E+02         XY=  0.24731399E-01         XZ=  0.46308841E-01
                YY= -0.10161438E+02         YZ=  0.25027297E-01         ZZ= -0.12213378E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44053974E-01 Y= -0.47687999E-11 Z= -0.13602570E-04   Total=     0.04405398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20776895E+01         XY=  0.41624973E+00         XZ=  0.37681201E+00
                YY=  0.12452429E+01         YZ= -0.12852570E-03         ZZ=  0.12449654E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7460134E-02 Y= -0.3426380E-09 Z=  0.5004437E-02  Total=      0.0089832
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088368E+02         XY=  0.37300669E-01         XZ=  0.57910681E-01
                YY= -0.10161436E+02         YZ=  0.25022183E-01         ZZ= -0.12213387E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13144110E-01 Y= -0.51047809E-11 Z= -0.10280651E-04   Total=     0.01314411
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14935519E+01         XY=  0.12419384E+00         XZ=  0.12159815E+00
                YY=  0.12452198E+01         YZ= -0.97138119E-04         ZZ=  0.12449984E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7133428E-02 Y= -0.3437938E-09 Z=  0.5003420E-02  Total=      0.0087132
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091636E+02         XY=  0.35667136E-01         XZ=  0.56986972E-01
                YY= -0.10161436E+02         YZ=  0.25017096E-01         ZZ= -0.12213398E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22819822E-01 Y= -0.52152483E-11 Z= -0.11421698E-04   Total=     0.02281982
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81392140E+00         XY= -0.21561607E+00         XZ= -0.18040705E+00
                YY=  0.12452066E+01         YZ= -0.10791945E-03         ZZ=  0.12449666E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4086756E-02 Y= -0.3419878E-09 Z=  0.5001811E-02  Total=      0.0064591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122102E+02         XY=  0.20433779E-01         XZ=  0.43868167E-01
                YY= -0.10161436E+02         YZ=  0.25009052E-01         ZZ= -0.12213416E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50136636E-01 Y= -0.46965208E-11 Z= -0.15403228E-04   Total=     0.05013664
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29772588E+00         XY= -0.47372256E+00         XZ= -0.41411700E+00
                YY=  0.12452195E+01         YZ= -0.14553945E-03         ZZ=  0.12449129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5221834E-03 Y= -0.3385203E-09 Z=  0.4999833E-02  Total=      0.0050270
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168192E+02         XY= -0.26109191E-02         XZ=  0.23538289E-01
                YY= -0.10161435E+02         YZ=  0.24999165E-01         ZZ= -0.12213436E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58381811E-01 Y= -0.34956919E-11 Z= -0.16703246E-04   Total=     0.05838181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14193439E+00         XY= -0.55162817E+00         XZ= -0.49029819E+00
                YY=  0.12452389E+01         YZ= -0.15782283E-03         ZZ=  0.12449102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4938513E-02 Y= -0.3367865E-09 Z=  0.4998221E-02  Total=      0.0070265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212358E+02         XY= -0.24692568E-01         XZ=  0.37395331E-02
                YY= -0.10161434E+02         YZ=  0.24991104E-01         ZZ= -0.12213451E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44385666E-01 Y= -0.19803125E-11 Z= -0.13507382E-04   Total=     0.04438567
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40641639E+00         XY= -0.41938376E+00         XZ= -0.37967828E+00
                YY=  0.12452363E+01         YZ= -0.12762628E-03         ZZ=  0.12449609E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7478362E-02 Y= -0.3364975E-09 Z=  0.4997207E-02  Total=      0.0089943
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237760E+02         XY= -0.37391811E-01         XZ= -0.79799219E-02
                YY= -0.10161432E+02         YZ=  0.24986032E-01         ZZ= -0.12213460E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13451734E-01 Y= -0.77019207E-12 Z= -0.10190337E-04   Total=     0.01345174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99095736E+00         XY= -0.12710047E+00         XZ= -0.12420495E+00
                YY=  0.12452134E+01         YZ= -0.96284732E-04         ZZ=  0.12449940E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7170900E-02 Y= -0.3366420E-09 Z=  0.4996203E-02  Total=      0.0087398
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234687E+02         XY= -0.35854502E-01         XZ= -0.71455117E-02
                YY= -0.10161432E+02         YZ=  0.24981011E-01         ZZ= -0.12213470E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22652877E-01 Y= -0.41457964E-12 Z= -0.11277977E-04   Total=     0.02265288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16732248E+01         XY=  0.21403866E+00         XZ=  0.17889086E+00
                YY=  0.12452001E+01         YZ= -0.10656144E-03         ZZ=  0.12449629E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4129426E-02 Y= -0.3347637E-09 Z=  0.4994613E-02  Total=      0.0064806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204272E+02         XY= -0.20647133E-01         XZ=  0.59363821E-02
                YY= -0.10161432E+02         YZ=  0.24973063E-01         ZZ= -0.12213488E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50173698E-01 Y= -0.10789064E-11 Z= -0.15223287E-04   Total=     0.05017370
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21933101E+01         XY=  0.47407274E+00         XZ=  0.41413156E+00
                YY=  0.12452127E+01         YZ= -0.14383923E-03         ZZ=  0.12449096E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4903407E-03 Y= -0.3312962E-09 Z=  0.4992654E-02  Total=      0.0050167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158075E+02         XY=  0.24517017E-02         XZ=  0.26291897E-01
                YY= -0.10161432E+02         YZ=  0.24963267E-01         ZZ= -0.12213508E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58608923E-01 Y= -0.24116700E-11 Z= -0.16555115E-04   Total=     0.05860892
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23527325E+01         XY=  0.55377406E+00         XZ=  0.49177923E+00
                YY=  0.12452321E+01         YZ= -0.15642319E-03         ZZ=  0.12449063E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4929428E-02 Y= -0.3286955E-09 Z=  0.4991053E-02  Total=      0.0070150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113687E+02         XY=  0.24647139E-01         XZ=  0.46169018E-01
                YY= -0.10161430E+02         YZ=  0.24955262E-01         ZZ= -0.12213522E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44716858E-01 Y= -0.36786363E-11 Z= -0.13414861E-04   Total=     0.04471686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20902040E+01         XY=  0.42251308E+00         XZ=  0.38203117E+00
                YY=  0.12452297E+01         YZ= -0.12675210E-03         ZZ=  0.12449563E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7495349E-02 Y= -0.3288400E-09 Z=  0.4990047E-02  Total=      0.0090045
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088030E+02         XY=  0.37476745E-01         XZ=  0.57986169E-01
                YY= -0.10161429E+02         YZ=  0.24950231E-01         ZZ= -0.12213531E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13761584E-01 Y= -0.41125900E-11 Z= -0.10098655E-04   Total=     0.01376159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15052087E+01         XY=  0.13002812E+00         XZ=  0.12644524E+00
                YY=  0.12452070E+01         YZ= -0.95418494E-04         ZZ=  0.12449896E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7207401E-02 Y= -0.3295624E-09 Z=  0.4989056E-02  Total=      0.0087657
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090911E+02         XY=  0.36037002E-01         XZ=  0.57222130E-01
                YY= -0.10161428E+02         YZ=  0.24945277E-01         ZZ= -0.12213542E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22481740E-01 Y= -0.33139721E-11 Z= -0.11127968E-04   Total=     0.02248174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82029820E+00         XY= -0.21242166E+00         XZ= -0.17776704E+00
                YY=  0.12451936E+01         YZ= -0.10514408E-03         ZZ=  0.12449595E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4171489E-02 Y= -0.3250835E-09 Z=  0.4987486E-02  Total=      0.0065020
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121270E+02         XY=  0.20857441E-01         XZ=  0.44146895E-01
                YY= -0.10161429E+02         YZ=  0.24937428E-01         ZZ= -0.12213559E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50206123E-01 Y= -0.14976695E-11 Z= -0.15032626E-04   Total=     0.05020612
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29640014E+00         XY= -0.47437911E+00         XZ= -0.41468449E+00
                YY=  0.12452060E+01         YZ= -0.14203774E-03         ZZ=  0.12449065E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4587775E-03 Y= -0.3193765E-09 Z=  0.4985546E-02  Total=      0.0050066
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167573E+02         XY= -0.22938894E-02         XZ=  0.23727927E-01
                YY= -0.10161428E+02         YZ=  0.24927727E-01         ZZ= -0.12213579E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58832656E-01 Y=  0.55553352E-12 Z= -0.16395074E-04   Total=     0.05883266
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13340200E+00         XY= -0.55588803E+00         XZ= -0.49385936E+00
                YY=  0.12452252E+01         YZ= -0.15491099E-03         ZZ=  0.12449027E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4920450E-02 Y= -0.3159811E-09 Z=  0.4983957E-02  Total=      0.0070036
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212193E+02         XY= -0.24602254E-01         XZ=  0.37411290E-02
                YY= -0.10161427E+02         YZ=  0.24919783E-01         ZZ= -0.12213593E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45047169E-01 Y=  0.18394049E-11 Z= -0.13314125E-04   Total=     0.04504717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39390373E+00         XY= -0.42563406E+00         XZ= -0.38488444E+00
                YY=  0.12452231E+01         YZ= -0.12580023E-03         ZZ=  0.12449519E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7512489E-02 Y= -0.3152587E-09 Z=  0.4982959E-02  Total=      0.0090148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238116E+02         XY= -0.37562446E-01         XZ= -0.81940436E-02
                YY= -0.10161425E+02         YZ=  0.24914795E-01         ZZ= -0.12213602E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14073347E-01 Y=  0.16080155E-11 Z= -0.10005661E-04   Total=     0.01407335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97919897E+00         XY= -0.13297386E+00         XZ= -0.12908264E+00
                YY=  0.12452007E+01         YZ= -0.94539775E-04         ZZ=  0.12449853E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7244294E-02 Y= -0.3156922E-09 Z=  0.4981982E-02  Total=      0.0087920
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235435E+02         XY= -0.36221473E-01         XZ= -0.75212000E-02
                YY= -0.10161425E+02         YZ=  0.24909907E-01         ZZ= -0.12213613E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22306652E-01 Y= -0.22834784E-12 Z= -0.10982838E-04   Total=     0.02230665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16666702E+01         XY=  0.21076731E+00         XZ=  0.17619145E+00
                YY=  0.12451871E+01         YZ= -0.10377278E-03         ZZ=  0.12449560E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4214286E-02 Y= -0.3137417E-09 Z=  0.4980431E-02  Total=      0.0065242
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205135E+02         XY= -0.21071430E-01         XZ=  0.55145777E-02
                YY= -0.10161425E+02         YZ=  0.24902155E-01         ZZ= -0.12213630E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50234088E-01 Y= -0.29991144E-11 Z= -0.14849495E-04   Total=     0.05023409
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21944388E+01         XY=  0.47464335E+00         XZ=  0.41463463E+00
                YY=  0.12451992E+01         YZ= -0.14030741E-03         ZZ=  0.12449034E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4261698E-03 Y= -0.3107798E-09 Z=  0.4978510E-02  Total=      0.0049967
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158731E+02         XY=  0.21308472E-02         XZ=  0.25956953E-01
                YY= -0.10161425E+02         YZ=  0.24892547E-01         ZZ= -0.12213649E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59053145E-01 Y= -0.55333886E-11 Z= -0.16241704E-04   Total=     0.05905315
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23611145E+01         XY=  0.55797136E+00         XZ=  0.49529541E+00
                YY=  0.12452185E+01         YZ= -0.15346191E-03         ZZ=  0.12448990E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4910272E-02 Y= -0.3086126E-09 Z=  0.4976933E-02  Total=      0.0069915
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113893E+02         XY=  0.24551356E-01         XZ=  0.46021078E-01
                YY= -0.10161423E+02         YZ=  0.24884663E-01         ZZ= -0.12213664E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45376716E-01 Y= -0.66813579E-11 Z= -0.13217164E-04   Total=     0.04537672
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21026616E+01         XY=  0.42874783E+00         XZ=  0.38723014E+00
                YY=  0.12452166E+01         YZ= -0.12488416E-03         ZZ=  0.12449475E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7528487E-02 Y= -0.3100574E-09 Z=  0.4975944E-02  Total=      0.0090243
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087714E+02         XY=  0.37642433E-01         XZ=  0.58054658E-01
                YY= -0.10161422E+02         YZ=  0.24879717E-01         ZZ= -0.12213673E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14387152E-01 Y= -0.58579285E-11 Z= -0.99122545E-05   Total=     0.01438716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15170187E+01         XY=  0.13593889E+00         XZ=  0.13135986E+00
                YY=  0.12451944E+01         YZ= -0.93657278E-04         ZZ=  0.12449811E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7280304E-02 Y= -0.3119357E-09 Z=  0.4974980E-02  Total=      0.0088178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090197E+02         XY=  0.36401517E-01         XZ=  0.57454617E-01
                YY= -0.10161421E+02         YZ=  0.24874896E-01         ZZ= -0.12213683E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22127455E-01 Y= -0.33478044E-11 Z= -0.10831980E-04   Total=     0.02212746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82698144E+00         XY= -0.20907415E+00         XZ= -0.17499673E+00
                YY=  0.12451808E+01         YZ= -0.10234740E-03         ZZ=  0.12449526E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4256560E-02 Y= -0.3076012E-09 Z=  0.4973449E-02  Total=      0.0065463
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120434E+02         XY=  0.21282796E-01         XZ=  0.44428872E-01
                YY= -0.10161421E+02         YZ=  0.24867245E-01         ZZ= -0.12213700E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50257398E-01 Y= -0.21399500E-12 Z= -0.14655586E-04   Total=     0.05025740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29541880E+00         XY= -0.47486359E+00         XZ= -0.41510776E+00
                YY=  0.12451926E+01         YZ= -0.13847522E-03         ZZ=  0.12449005E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3937538E-03 Y= -0.3018942E-09 Z=  0.4971547E-02  Total=      0.0049871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166938E+02         XY= -0.19687711E-02         XZ=  0.23926100E-01
                YY= -0.10161421E+02         YZ=  0.24857735E-01         ZZ= -0.12213719E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59270156E-01 Y=  0.21665589E-11 Z= -0.16075685E-04   Total=     0.05927016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12512199E+00         XY= -0.56002182E+00         XZ= -0.49731673E+00
                YY=  0.12452117E+01         YZ= -0.15189319E-03         ZZ=  0.12448955E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4900105E-02 Y= -0.2990046E-09 Z=  0.4969983E-02  Total=      0.0069794
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212004E+02         XY= -0.24500525E-01         XZ=  0.37539113E-02
                YY= -0.10161420E+02         YZ=  0.24849915E-01         ZZ= -0.12213733E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45705238E-01 Y=  0.27322879E-11 Z= -0.13110827E-04   Total=     0.04570524
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38145619E+00         XY= -0.43185191E+00         XZ= -0.39006644E+00
                YY=  0.12452101E+01         YZ= -0.12387934E-03         ZZ=  0.12449434E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7544533E-02 Y= -0.2997270E-09 Z=  0.4969003E-02  Total=      0.0090339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238451E+02         XY= -0.37722666E-01         XZ= -0.83979639E-02
                YY= -0.10161418E+02         YZ=  0.24845015E-01         ZZ= -0.12213742E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14702728E-01 Y=  0.12430189E-11 Z= -0.98165131E-05   Total=     0.01470273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96729402E+00         XY= -0.13892065E+00         XZ= -0.13402489E+00
                YY=  0.12451882E+01         YZ= -0.92752594E-04         ZZ=  0.12449770E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7316595E-02 Y= -0.3003771E-09 Z=  0.4968052E-02  Total=      0.0088439
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236173E+02         XY= -0.36582977E-01         XZ= -0.78909347E-02
                YY= -0.10161418E+02         YZ=  0.24840260E-01         ZZ= -0.12213752E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21944403E-01 Y= -0.15848958E-11 Z= -0.10685683E-04   Total=     0.02194441
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16598131E+01         XY=  0.20734456E+00         XZ=  0.17336325E+00
                YY=  0.12451745E+01         YZ= -0.10096508E-03         ZZ=  0.12449493E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4299455E-02 Y= -0.2990046E-09 Z=  0.4966542E-02  Total=      0.0065690
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206001E+02         XY= -0.21497278E-01         XZ=  0.50928280E-02
                YY= -0.10161418E+02         YZ=  0.24832706E-01         ZZ= -0.12213769E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50276268E-01 Y= -0.43878833E-11 Z= -0.14469835E-04   Total=     0.05027627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21952237E+01         XY=  0.47504189E+00         XZ=  0.41499347E+00
                YY=  0.12451860E+01         YZ= -0.13672016E-03         ZZ=  0.12448976E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3604027E-03 Y= -0.2967651E-09 Z=  0.4964659E-02  Total=      0.0049777
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159403E+02         XY=  0.18020116E-02         XZ=  0.25616748E-01
                YY= -0.10161418E+02         YZ=  0.24823292E-01         ZZ= -0.12213788E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59483855E-01 Y= -0.57731549E-11 Z= -0.15917747E-04   Total=     0.05948386
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23692414E+01         XY=  0.56204098E+00         XZ=  0.49870638E+00
                YY=  0.12452051E+01         YZ= -0.15040096E-03         ZZ=  0.12448920E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4888836E-02 Y= -0.2947424E-09 Z=  0.4963107E-02  Total=      0.0069666
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114121E+02         XY=  0.24444179E-01         XZ=  0.45865146E-01
                YY= -0.10161416E+02         YZ=  0.24815534E-01         ZZ= -0.12213802E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46032847E-01 Y= -0.49640373E-11 Z= -0.13010069E-04   Total=     0.04603285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21150489E+01         XY=  0.43494737E+00         XZ=  0.39240241E+00
                YY=  0.12452037E+01         YZ= -0.12292737E-03         ZZ=  0.12449391E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7559523E-02 Y= -0.2943089E-09 Z=  0.4962136E-02  Total=      0.0090426
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087418E+02         XY=  0.37797612E-01         XZ=  0.58116031E-01
                YY= -0.10161415E+02         YZ=  0.24810678E-01         ZZ= -0.12213811E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15020144E-01 Y= -0.21700047E-11 Z= -0.97221886E-05   Total=     0.01502015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15289693E+01         XY=  0.14191979E+00         XZ=  0.13633590E+00
                YY=  0.12451820E+01         YZ= -0.91861383E-04         ZZ=  0.12449729E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7352071E-02 Y= -0.2941644E-09 Z=  0.4961198E-02  Total=      0.0088694
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089493E+02         XY=  0.36760354E-01         XZ=  0.57684116E-01
                YY= -0.10161414E+02         YZ=  0.24805990E-01         ZZ= -0.12213821E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21757465E-01 Y=  0.14937652E-11 Z= -0.10535231E-04   Total=     0.02175747
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83396173E+00         XY= -0.20557825E+00         XZ= -0.17210072E+00
                YY=  0.12451682E+01         YZ= -0.99543488E-04         ZZ=  0.12449461E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4341880E-02 Y= -0.2899745E-09 Z=  0.4959708E-02  Total=      0.0065917
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119595E+02         XY=  0.21709399E-01         XZ=  0.44713657E-01
                YY= -0.10161414E+02         YZ=  0.24798536E-01         ZZ= -0.12213837E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50290690E-01 Y=  0.45040743E-11 Z= -0.14274385E-04   Total=     0.05029069
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29477754E+00         XY= -0.47517815E+00         XZ= -0.41538916E+00
                YY=  0.12451795E+01         YZ= -0.13487335E-03         ZZ=  0.12448948E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3272047E-03 Y= -0.2845564E-09 Z=  0.4957845E-02  Total=      0.0049686
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166287E+02         XY= -0.16360254E-02         XZ=  0.24132332E-01
                YY= -0.10161414E+02         YZ=  0.24789222E-01         ZZ= -0.12213856E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59694245E-01 Y=  0.56163997E-11 Z= -0.15747537E-04   Total=     0.05969425
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11709566E+00         XY= -0.56402887E+00         XZ= -0.50067022E+00
                YY=  0.12451985E+01         YZ= -0.14879261E-03         ZZ=  0.12448888E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4877552E-02 Y= -0.2802220E-09 Z=  0.4956307E-02  Total=      0.0069538
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211792E+02         XY= -0.24387760E-01         XZ=  0.37774567E-02
                YY= -0.10161413E+02         YZ=  0.24781531E-01         ZZ= -0.12213870E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46359555E-01 Y=  0.44227566E-11 Z= -0.12899537E-04   Total=     0.04635956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36907976E+00         XY= -0.43803431E+00         XZ= -0.39522205E+00
                YY=  0.12451973E+01         YZ= -0.12188292E-03         ZZ=  0.12449352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7574540E-02 Y= -0.2794995E-09 Z=  0.4955345E-02  Total=      0.0090515
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238765E+02         XY= -0.37872702E-01         XZ= -0.85919912E-02
                YY= -0.10161411E+02         YZ=  0.24776722E-01         ZZ= -0.12213879E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15339414E-01 Y=  0.15251309E-11 Z= -0.96244876E-05   Total=     0.01533942
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95525129E+00         XY= -0.14493646E+00         XZ= -0.13902810E+00
                YY=  0.12451759E+01         YZ= -0.90938211E-04         ZZ=  0.12449690E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7387813E-02 Y= -0.2818835E-09 Z=  0.4954421E-02  Total=      0.0088953
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236899E+02         XY= -0.36939068E-01         XZ= -0.82548770E-02
                YY= -0.10161411E+02         YZ=  0.24772101E-01         ZZ= -0.12213889E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21566617E-01 Y= -0.17552535E-11 Z= -0.10387941E-04   Total=     0.02156662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16526626E+01         XY=  0.20377500E+00         XZ=  0.17041036E+00
                YY=  0.12451620E+01         YZ= -0.98151830E-04         ZZ=  0.12449429E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4384913E-02 Y= -0.2810166E-09 Z=  0.4952950E-02  Total=      0.0066151
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206870E+02         XY= -0.21924569E-01         XZ=  0.46711216E-02
                YY= -0.10161411E+02         YZ=  0.24764746E-01         ZZ= -0.12213905E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50300639E-01 Y= -0.39919934E-11 Z= -0.14085656E-04   Total=     0.05030064
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21956722E+01         XY=  0.47527216E+00         XZ=  0.41521186E+00
                YY=  0.12451730E+01         YZ= -0.13309019E-03         ZZ=  0.12448920E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2930846E-03 Y= -0.2769711E-09 Z=  0.4951106E-02  Total=      0.0049598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160091E+02         XY=  0.14654209E-02         XZ=  0.25271400E-01
                YY= -0.10161411E+02         YZ=  0.24755529E-01         ZZ= -0.12213924E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59901313E-01 Y= -0.43042420E-11 Z= -0.15584217E-04   Total=     0.05990132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23771182E+01         XY=  0.56598539E+00         XZ=  0.50201513E+00
                YY=  0.12451919E+01         YZ= -0.14724954E-03         ZZ=  0.12448855E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4865181E-02 Y= -0.2743705E-09 Z=  0.4949581E-02  Total=      0.0069403
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114372E+02         XY=  0.24325905E-01         XZ=  0.45701447E-01
                YY= -0.10161409E+02         YZ=  0.24747904E-01         ZZ= -0.12213938E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46685379E-01 Y= -0.27437256E-11 Z= -0.12793883E-04   Total=     0.04668538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21273685E+01         XY=  0.44111290E+00         XZ=  0.39755011E+00
                YY=  0.12451910E+01         YZ= -0.12088469E-03         ZZ=  0.12449311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7588524E-02 Y= -0.2751651E-09 Z=  0.4948628E-02  Total=      0.0090595
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087141E+02         XY=  0.37942617E-01         XZ=  0.58170590E-01
                YY= -0.10161408E+02         YZ=  0.24743140E-01         ZZ= -0.12213946E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15660610E-01 Y= -0.24411130E-12 Z= -0.95281467E-05   Total=     0.01566061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15410614E+01         XY=  0.14797132E+00         XZ=  0.14137484E+00
                YY=  0.12451698E+01         YZ= -0.90027937E-04         ZZ=  0.12449651E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7422775E-02 Y= -0.2763932E-09 Z=  0.4947718E-02  Total=      0.0089206
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088800E+02         XY=  0.37113874E-01         XZ=  0.57910994E-01
                YY= -0.10161408E+02         YZ=  0.24738586E-01         ZZ= -0.12213956E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21371719E-01 Y=  0.18322584E-11 Z= -0.10237007E-04   Total=     0.02137172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84124005E+00         XY= -0.20193348E+00         XZ= -0.16907777E+00
                YY=  0.12451559E+01         YZ= -0.96725676E-04         ZZ=  0.12449398E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4427530E-02 Y= -0.2734313E-09 Z=  0.4946267E-02  Total=      0.0066384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118753E+02         XY=  0.22137648E-01         XZ=  0.45001676E-01
                YY= -0.10161408E+02         YZ=  0.24731332E-01         ZZ= -0.12213972E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50305892E-01 Y=  0.23325996E-11 Z= -0.13887904E-04   Total=     0.05030589
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29447840E+00         XY= -0.47532180E+00         XZ= -0.41552749E+00
                YY=  0.12451666E+01         YZ= -0.13122165E-03         ZZ=  0.12448895E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2590393E-03 Y= -0.2674353E-09 Z=  0.4944444E-02  Total=      0.0049512
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165619E+02         XY= -0.12951987E-02         XZ=  0.24347102E-01
                YY= -0.10161407E+02         YZ=  0.24722217E-01         ZZ= -0.12213990E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60104757E-01 Y=  0.83728526E-12 Z= -0.15408905E-04   Total=     0.06010476
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10932613E+00         XY= -0.56790765E+00         XZ= -0.50391868E+00
                YY=  0.12451854E+01         YZ= -0.14559304E-03         ZZ=  0.12448825E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4852689E-02 Y= -0.2632454E-09 Z=  0.4942933E-02  Total=      0.0069268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211558E+02         XY= -0.24263444E-01         XZ=  0.38122797E-02
                YY= -0.10161406E+02         YZ=  0.24714662E-01         ZZ= -0.12214004E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47009950E-01 Y= -0.21702476E-11 Z= -0.12677976E-04   Total=     0.04700995
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35677769E+00         XY= -0.44417965E+00         XZ= -0.40035057E+00
                YY=  0.12451847E+01         YZ= -0.11978953E-03         ZZ=  0.12449274E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7602399E-02 Y= -0.2632454E-09 Z=  0.4941990E-02  Total=      0.0090675
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239058E+02         XY= -0.38011998E-01         XZ= -0.87756122E-02
                YY= -0.10161405E+02         YZ=  0.24709948E-01         ZZ= -0.12214013E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15983317E-01 Y= -0.55537380E-11 Z= -0.94272948E-05   Total=     0.01598332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94307242E+00         XY= -0.15102046E+00         XZ= -0.14409254E+00
                YY=  0.12451638E+01         YZ= -0.89075070E-04         ZZ=  0.12449613E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7457840E-02 Y= -0.2641123E-09 Z=  0.4941093E-02  Total=      0.0089462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237613E+02         XY= -0.37289204E-01         XZ= -0.86125686E-02
                YY= -0.10161404E+02         YZ=  0.24705461E-01         ZZ= -0.12214022E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21173213E-01 Y= -0.80661077E-11 Z= -0.10087945E-04   Total=     0.02117322
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16452172E+01         XY=  0.20005787E+00         XZ=  0.16733106E+00
                YY=  0.12451499E+01         YZ= -0.95317327E-04         ZZ=  0.12449368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4470569E-02 Y= -0.2624507E-09 Z=  0.4939662E-02  Total=      0.0066623
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207741E+02         XY= -0.22352848E-01         XZ=  0.42498016E-02
                YY= -0.10161404E+02         YZ=  0.24698306E-01         ZZ= -0.12214038E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50306915E-01 Y= -0.89209827E-11 Z= -0.13695985E-04   Total=     0.05030692
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21957791E+01         XY=  0.47533146E+00         XZ=  0.41528661E+00
                YY=  0.12451603E+01         YZ= -0.12940838E-03         ZZ=  0.12448869E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2242757E-03 Y= -0.2589832E-09 Z=  0.4937859E-02  Total=      0.0049429
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160793E+02         XY=  0.11213765E-02         XZ=  0.24921093E-01
                YY= -0.10161404E+02         YZ=  0.24689292E-01         ZZ= -0.12214056E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60305067E-01 Y= -0.81263496E-11 Z= -0.15240323E-04   Total=     0.06030507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23847362E+01         XY=  0.56980031E+00         XZ=  0.50521753E+00
                YY=  0.12451790E+01         YZ= -0.14400024E-03         ZZ=  0.12448794E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4839329E-02 Y= -0.2544320E-09 Z=  0.4936361E-02  Total=      0.0069128
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114644E+02         XY=  0.24196645E-01         XZ=  0.45529990E-01
                YY= -0.10161403E+02         YZ=  0.24681805E-01         ZZ= -0.12214070E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47333804E-01 Y= -0.64344199E-11 Z= -0.12567572E-04   Total=     0.04733381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21396107E+01         XY=  0.44723963E+00         XZ=  0.40266911E+00
                YY=  0.12451785E+01         YZ= -0.11874640E-03         ZZ=  0.12449235E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7615477E-02 Y= -0.2530594E-09 Z=  0.4935428E-02  Total=      0.0090749
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086886E+02         XY=  0.38077382E-01         XZ=  0.58218208E-01
                YY= -0.10161401E+02         YZ=  0.24677138E-01         ZZ= -0.12214078E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16308140E-01 Y= -0.49432829E-11 Z= -0.93291127E-05   Total=     0.01630814
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15532872E+01         XY=  0.15408959E+00         XZ=  0.14647374E+00
                YY=  0.12451579E+01         YZ= -0.88147381E-04         ZZ=  0.12449575E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7492381E-02 Y= -0.2540708E-09 Z=  0.4934544E-02  Total=      0.0089714
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088118E+02         XY=  0.37461903E-01         XZ=  0.58135054E-01
                YY= -0.10161401E+02         YZ=  0.24672718E-01         ZZ= -0.12214088E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20970399E-01 Y= -0.45543705E-11 Z= -0.99370289E-05   Total=     0.02097040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84881294E+00         XY= -0.19814156E+00         XZ= -0.16592874E+00
                YY=  0.12451439E+01         YZ= -0.93891353E-04         ZZ=  0.12449339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4513473E-02 Y= -0.2511812E-09 Z=  0.4933133E-02  Total=      0.0066863
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117907E+02         XY=  0.22567365E-01         XZ=  0.45292759E-01
                YY= -0.10161401E+02         YZ=  0.24665664E-01         ZZ= -0.12214103E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50302896E-01 Y= -0.55463581E-11 Z= -0.13497018E-04   Total=     0.05030290
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29452344E+00         XY= -0.47529349E+00         XZ= -0.41552118E+00
                YY=  0.12451540E+01         YZ= -0.12752838E-03         ZZ=  0.12448845E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1892732E-03 Y= -0.2469190E-09 Z=  0.4931351E-02  Total=      0.0049350
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164935E+02         XY= -0.94636776E-03         XZ=  0.24570352E-01
                YY= -0.10161401E+02         YZ=  0.24656754E-01         ZZ= -0.12214121E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60501323E-01 Y= -0.74666477E-11 Z= -0.15061564E-04   Total=     0.06050133
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10182038E+00         XY= -0.57165466E+00         XZ= -0.50705859E+00
                YY=  0.12451726E+01         YZ= -0.14231122E-03         ZZ=  0.12448766E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4825496E-02 Y= -0.2446073E-09 Z=  0.4929868E-02  Total=      0.0068985
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211299E+02         XY= -0.24127484E-01         XZ=  0.38584827E-02
                YY= -0.10161399E+02         YZ=  0.24649340E-01         ZZ= -0.12214135E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47655921E-01 Y= -0.93813981E-11 Z= -0.12448321E-04   Total=     0.04765592
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34455945E+00         XY= -0.45028320E+00         XZ= -0.40544764E+00
                YY=  0.12451724E+01         YZ= -0.11761967E-03         ZZ=  0.12449199E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7628055E-02 Y= -0.2446795E-09 Z=  0.4928945E-02  Total=      0.0090819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239328E+02         XY= -0.38140278E-01         XZ= -0.89485647E-02
                YY= -0.10161398E+02         YZ=  0.24644723E-01         ZZ= -0.12214143E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16633980E-01 Y= -0.10352714E-10 Z= -0.92273401E-05   Total=     0.01663398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93076606E+00         XY= -0.15716834E+00         XZ= -0.14921446E+00
                YY=  0.12451520E+01         YZ= -0.87185814E-04         ZZ=  0.12449539E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7526596E-02 Y= -0.2467745E-09 Z=  0.4928075E-02  Total=      0.0089964
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238314E+02         XY= -0.37632980E-01         XZ= -0.89636427E-02
                YY= -0.10161398E+02         YZ=  0.24640371E-01         ZZ= -0.12214152E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20764435E-01 Y= -0.99039334E-11 Z= -0.97884657E-05   Total=     0.02076444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16374817E+01         XY=  0.19619548E+00         XZ=  0.16412725E+00
                YY=  0.12451380E+01         YZ= -0.92487679E-04         ZZ=  0.12449310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4556337E-02 Y= -0.2459076E-09 Z=  0.4926684E-02  Total=      0.0067106
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208612E+02         XY= -0.22781685E-01         XZ=  0.38292496E-02
                YY= -0.10161398E+02         YZ=  0.24633416E-01         ZZ= -0.12214168E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50295033E-01 Y= -0.82453447E-11 Z= -0.13303986E-04   Total=     0.05029503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21955431E+01         XY=  0.47521919E+00         XZ=  0.41521707E+00
                YY=  0.12451478E+01         YZ= -0.12570451E-03         ZZ=  0.12448821E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1540446E-03 Y= -0.2435959E-09 Z=  0.4924922E-02  Total=      0.0049273
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161509E+02         XY=  0.77022108E-03         XZ=  0.24566125E-01
                YY= -0.10161397E+02         YZ=  0.24624607E-01         ZZ= -0.12214186E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60694750E-01 Y= -0.61530852E-11 Z= -0.14889353E-04   Total=     0.06069475
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23920885E+01         XY=  0.57348228E+00         XZ=  0.50831046E+00
                YY=  0.12451663E+01         YZ= -0.14068405E-03         ZZ=  0.12448737E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4811313E-02 Y= -0.2414287E-09 Z=  0.4923453E-02  Total=      0.0068840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114938E+02         XY=  0.24056561E-01         XZ=  0.45350918E-01
                YY= -0.10161396E+02         YZ=  0.24617264E-01         ZZ= -0.12214199E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47977550E-01 Y= -0.45674472E-11 Z= -0.12334339E-04   Total=     0.04797755
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21517647E+01         XY=  0.45332215E+00         XZ=  0.40775468E+00
                YY=  0.12451663E+01         YZ= -0.11654265E-03         ZZ=  0.12449163E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7640370E-02 Y= -0.2410675E-09 Z=  0.4922540E-02  Total=      0.0090888
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086650E+02         XY=  0.38201850E-01         XZ=  0.58258832E-01
                YY= -0.10161395E+02         YZ=  0.24612696E-01         ZZ= -0.12214207E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16962110E-01 Y= -0.41109570E-11 Z= -0.91283027E-05   Total=     0.01696211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15656349E+01         XY=  0.16026871E+00         XZ=  0.15162743E+00
                YY=  0.12451462E+01         YZ= -0.86249995E-04         ZZ=  0.12449503E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7560836E-02 Y= -0.2410675E-09 Z=  0.4921683E-02  Total=      0.0090216
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087447E+02         XY=  0.37804178E-01         XZ=  0.58356066E-01
                YY= -0.10161394E+02         YZ=  0.24608411E-01         ZZ= -0.12214216E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20554028E-01 Y= -0.47728172E-11 Z= -0.96386561E-05   Total=     0.02055403
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85667056E+00         XY= -0.19420742E+00         XZ= -0.16265811E+00
                YY=  0.12451321E+01         YZ= -0.91072142E-04         ZZ=  0.12449282E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4599629E-02 Y= -0.2386835E-09 Z=  0.4920312E-02  Total=      0.0067354
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117059E+02         XY=  0.22998141E-01         XZ=  0.45586538E-01
                YY= -0.10161395E+02         YZ=  0.24601557E-01         ZZ= -0.12214231E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50282021E-01 Y= -0.59186747E-11 Z= -0.13104904E-04   Total=     0.05028202
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29490664E+00         XY= -0.47509624E+00         XZ= -0.41537330E+00
                YY=  0.12451417E+01         YZ= -0.12382345E-03         ZZ=  0.12448798E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1180017E-03 Y= -0.2347825E-09 Z=  0.4918571E-02  Total=      0.0049200
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164236E+02         XY= -0.59001030E-03         XZ=  0.24801630E-01
                YY= -0.10161394E+02         YZ=  0.24592853E-01         ZZ= -0.12214249E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60884046E-01 Y= -0.66220523E-11 Z= -0.14707809E-04   Total=     0.06088405
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94576499E-01         XY= -0.57527086E+00         XZ= -0.51009146E+00
                YY=  0.12451600E+01         YZ= -0.13896871E-03         ZZ=  0.12448710E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4796071E-02 Y= -0.2318929E-09 Z=  0.4917117E-02  Total=      0.0068688
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211018E+02         XY= -0.23980359E-01         XZ=  0.39155795E-02
                YY= -0.10161393E+02         YZ=  0.24585584E-01         ZZ= -0.12214263E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48297411E-01 Y= -0.61552043E-11 Z= -0.12211589E-04   Total=     0.04829741
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33242614E+00         XY= -0.45634439E+00         XZ= -0.41051361E+00
                YY=  0.12451602E+01         YZ= -0.11538285E-03         ZZ=  0.12449129E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7651599E-02 Y= -0.2316039E-09 Z=  0.4916214E-02  Total=      0.0090948
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239576E+02         XY= -0.38257995E-01         XZ= -0.91113444E-02
                YY= -0.10161392E+02         YZ=  0.24581068E-01         ZZ= -0.12214271E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17291283E-01 Y= -0.43900001E-11 Z= -0.90247709E-05   Total=     0.01729129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91833447E+00         XY= -0.16337895E+00         XZ= -0.15439363E+00
                YY=  0.12451405E+01         YZ= -0.85271762E-04         ZZ=  0.12449468E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7594164E-02 Y= -0.2323263E-09 Z=  0.4915371E-02  Total=      0.0090461
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239003E+02         XY= -0.37970822E-01         XZ= -0.93085985E-02
                YY= -0.10161391E+02         YZ=  0.24576851E-01         ZZ= -0.12214280E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20340380E-01 Y= -0.18998380E-11 Z= -0.94896706E-05   Total=     0.02034038
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16294576E+01         XY=  0.19218873E+00         XZ=  0.16079924E+00
                YY=  0.12451263E+01         YZ= -0.89664407E-04         ZZ=  0.12449254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4642299E-02 Y= -0.2313150E-09 Z=  0.4914020E-02  Total=      0.0067601
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209485E+02         XY= -0.23211496E-01         XZ=  0.34089612E-02
                YY= -0.10161391E+02         YZ=  0.24570096E-01         ZZ= -0.12214294E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50265025E-01 Y=  0.29975236E-12 Z= -0.12910374E-04   Total=     0.05026503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21949649E+01         XY=  0.47493565E+00         XZ=  0.41500351E+00
                YY=  0.12451356E+01         YZ= -0.12198535E-03         ZZ=  0.12448776E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8230535E-04 Y= -0.2282086E-09 Z=  0.4912300E-02  Total=      0.0049130
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162239E+02         XY=  0.41152473E-03         XZ=  0.24205995E-01
                YY= -0.10161391E+02         YZ=  0.24561495E-01         ZZ= -0.12214312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61070355E-01 Y=  0.12525149E-11 Z= -0.14532381E-04   Total=     0.06107036
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23991750E+01         XY=  0.57703123E+00         XZ=  0.51129446E+00
                YY=  0.12451538E+01         YZ= -0.13731109E-03         ZZ=  0.12448683E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4781044E-02 Y= -0.2245243E-09 Z=  0.4910860E-02  Total=      0.0068538
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115254E+02         XY=  0.23905220E-01         XZ=  0.45163760E-01
                YY= -0.10161390E+02         YZ=  0.24554299E-01         ZZ= -0.12214325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48616649E-01 Y=  0.56029510E-12 Z= -0.12095124E-04   Total=     0.04861665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21638311E+01         XY=  0.45936076E+00         XZ=  0.41280816E+00
                YY=  0.12451543E+01         YZ= -0.11428236E-03         ZZ=  0.12449094E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7663124E-02 Y= -0.2233685E-09 Z=  0.4909967E-02  Total=      0.0091012
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086436E+02         XY=  0.38315618E-01         XZ=  0.58292080E-01
                YY= -0.10161389E+02         YZ=  0.24549833E-01         ZZ= -0.12214333E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17622674E-01 Y= -0.13756465E-11 Z= -0.89263958E-05   Total=     0.01762268
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15781076E+01         XY=  0.16651014E+00         XZ=  0.15683856E+00
                YY=  0.12451348E+01         YZ= -0.84342228E-04         ZZ=  0.12449433E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7628079E-02 Y= -0.2235852E-09 Z=  0.4909137E-02  Total=      0.0090712
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086787E+02         XY=  0.38140395E-01         XZ=  0.58573793E-01
                YY= -0.10161388E+02         YZ=  0.24545682E-01         ZZ= -0.12214342E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20122277E-01 Y= -0.35094057E-11 Z= -0.93426120E-05   Total=     0.02012228
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86481908E+00         XY= -0.19012797E+00         XZ= -0.15926181E+00
                YY=  0.12451206E+01         YZ= -0.88274919E-04         ZZ=  0.12449227E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4685967E-02 Y= -0.2217792E-09 Z=  0.4907806E-02  Total=      0.0067856
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116209E+02         XY=  0.23429832E-01         XZ=  0.45882969E-01
                YY= -0.10161388E+02         YZ=  0.24539027E-01         ZZ= -0.12214357E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50242790E-01 Y= -0.46406069E-11 Z= -0.12712617E-04   Total=     0.05024279
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29563697E+00         XY= -0.47472557E+00         XZ= -0.41507887E+00
                YY=  0.12451296E+01         YZ= -0.12011686E-03         ZZ=  0.12448754E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4521457E-04 Y= -0.2188173E-09 Z=  0.4906107E-02  Total=      0.0049063
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163521E+02         XY= -0.22607489E-03         XZ=  0.25041099E-01
                YY= -0.10161388E+02         YZ=  0.24530532E-01         ZZ= -0.12214374E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61252397E-01 Y= -0.40132297E-11 Z= -0.14348977E-04   Total=     0.06125240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87604449E-01         XY= -0.57875128E+00         XZ= -0.51301242E+00
                YY=  0.12451477E+01         YZ= -0.13557822E-03         ZZ=  0.12448658E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4764368E-02 Y= -0.2162166E-09 Z=  0.4904683E-02  Total=      0.0068378
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210714E+02         XY= -0.23821841E-01         XZ=  0.39838985E-02
                YY= -0.10161387E+02         YZ=  0.24523412E-01         ZZ= -0.12214387E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48933984E-01 Y= -0.17256861E-11 Z= -0.11969223E-04   Total=     0.04893399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32038595E+00         XY= -0.46235914E+00         XZ= -0.41554498E+00
                YY=  0.12451483E+01         YZ= -0.11309278E-03         ZZ=  0.12449061E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7672962E-02 Y= -0.2167946E-09 Z=  0.4903800E-02  Total=      0.0091061
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239803E+02         XY= -0.38364814E-01         XZ= -0.92635489E-02
                YY= -0.10161386E+02         YZ=  0.24519000E-01         ZZ= -0.12214395E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17955030E-01 Y=  0.12634062E-11 Z= -0.88211384E-05   Total=     0.01795503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90578137E+00         XY= -0.16965044E+00         XZ= -0.15962907E+00
                YY=  0.12451291E+01         YZ= -0.83347666E-04         ZZ=  0.12449400E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7660481E-02 Y= -0.2190340E-09 Z=  0.4902984E-02  Total=      0.0090952
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239679E+02         XY= -0.38302408E-01         XZ= -0.96470813E-02
                YY= -0.10161385E+02         YZ=  0.24514916E-01         ZZ= -0.12214404E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19900917E-01 Y=  0.35574308E-11 Z= -0.91932719E-05   Total=     0.01990092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16211428E+01         XY=  0.18803641E+00         XZ=  0.15734496E+00
                YY=  0.12451150E+01         YZ= -0.86863799E-04         ZZ=  0.12449201E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4728420E-02 Y= -0.2180227E-09 Z=  0.4901672E-02  Total=      0.0068106
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210359E+02         XY= -0.23642103E-01         XZ=  0.29891218E-02
                YY= -0.10161385E+02         YZ=  0.24508360E-01         ZZ= -0.12214418E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50216438E-01 Y=  0.39886474E-11 Z= -0.12516737E-04   Total=     0.05021644
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21940359E+01         XY=  0.47447658E+00         XZ=  0.41464109E+00
                YY=  0.12451237E+01         YZ= -0.11826599E-03         ZZ=  0.12448733E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9045540E-05 Y= -0.2150608E-09 Z=  0.4899994E-02  Total=      0.0049000
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162985E+02         XY=  0.45225681E-04         XZ=  0.23840632E-01
                YY= -0.10161385E+02         YZ=  0.24499970E-01         ZZ= -0.12214435E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61431209E-01 Y=  0.22117454E-11 Z= -0.14170233E-04   Total=     0.06143121
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24059831E+01         XY=  0.58044080E+00         XZ=  0.51416300E+00
                YY=  0.12451416E+01         YZ= -0.13388928E-03         ZZ=  0.12448633E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4748455E-02 Y= -0.2123879E-09 Z=  0.4898585E-02  Total=      0.0068223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115592E+02         XY=  0.23742272E-01         XZ=  0.44968165E-01
                YY= -0.10161384E+02         YZ=  0.24492925E-01         ZZ= -0.12214448E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49250372E-01 Y= -0.10728664E-11 Z= -0.11849598E-04   Total=     0.04925037
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21757961E+01         XY=  0.46534858E+00         XZ=  0.41782290E+00
                YY=  0.12451425E+01         YZ= -0.11196248E-03         ZZ=  0.12449028E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7683617E-02 Y= -0.2131825E-09 Z=  0.4897713E-02  Total=      0.0091118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086243E+02         XY=  0.38418081E-01         XZ=  0.58317357E-01
                YY= -0.10161383E+02         YZ=  0.24488563E-01         ZZ= -0.12214456E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18289235E-01 Y= -0.43927342E-11 Z= -0.87222389E-05   Total=     0.01828924
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15906937E+01         XY=  0.17280823E+00         XZ=  0.16210190E+00
                YY=  0.12451235E+01         YZ= -0.82413249E-04         ZZ=  0.12449366E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7693956E-02 Y= -0.2148441E-09 Z=  0.4896909E-02  Total=      0.0091201
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086141E+02         XY=  0.38469780E-01         XZ=  0.58787490E-01
                YY= -0.10161382E+02         YZ=  0.24484545E-01         ZZ= -0.12214464E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19675474E-01 Y= -0.61669302E-11 Z= -0.90477166E-05   Total=     0.01967548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87325233E+00         XY= -0.18590629E+00         XZ= -0.15574251E+00
                YY=  0.12451094E+01         YZ= -0.85488583E-04         ZZ=  0.12449175E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4772325E-02 Y= -0.2137604E-09 Z=  0.4895618E-02  Total=      0.0068368
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115358E+02         XY=  0.23861623E-01         XZ=  0.46181281E-01
                YY= -0.10161382E+02         YZ=  0.24478089E-01         ZZ= -0.12214479E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50185195E-01 Y= -0.54563563E-11 Z= -0.12319429E-04   Total=     0.05018520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29671462E+00         XY= -0.47418137E+00         XZ= -0.41463758E+00
                YY=  0.12451178E+01         YZ= -0.11640177E-03         ZZ=  0.12448713E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2894178E-04 Y= -0.2109431E-09 Z=  0.4893961E-02  Total=      0.0048940
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162792E+02         XY=  0.14470689E-03         XZ=  0.25288077E-01
                YY= -0.10161382E+02         YZ=  0.24469804E-01         ZZ= -0.12214496E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61606062E-01 Y= -0.24432532E-11 Z= -0.13984592E-04   Total=     0.06160606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80910178E-01         XY= -0.58209292E+00         XZ= -0.51581852E+00
                YY=  0.12451356E+01         YZ= -0.13213526E-03         ZZ=  0.12448610E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4730496E-02 Y= -0.2084146E-09 Z=  0.4892568E-02  Total=      0.0068055
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210388E+02         XY= -0.23652483E-01         XZ=  0.40629288E-02
                YY= -0.10161381E+02         YZ=  0.24462838E-01         ZZ= -0.12214509E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49565126E-01 Y=  0.16034316E-11 Z= -0.11720573E-04   Total=     0.04956513
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30844865E+00         XY= -0.46832256E+00         XZ= -0.42053708E+00
                YY=  0.12451367E+01         YZ= -0.11074335E-03         ZZ=  0.12448998E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7692213E-02 Y= -0.2079089E-09 Z=  0.4891707E-02  Total=      0.0091159
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240008E+02         XY= -0.38461066E-01         XZ= -0.94054767E-02
                YY= -0.10161380E+02         YZ=  0.24458531E-01         ZZ= -0.12214516E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18624639E-01 Y=  0.48811001E-11 Z= -0.86156352E-05   Total=     0.01862464
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89311774E+00         XY= -0.17597733E+00         XZ= -0.16491546E+00
                YY=  0.12451180E+01         YZ= -0.81405912E-04         ZZ=  0.12449334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7725570E-02 Y= -0.2084869E-09 Z=  0.4890917E-02  Total=      0.0091436
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240343E+02         XY= -0.38627853E-01         XZ= -0.99791801E-02
                YY= -0.10161379E+02         YZ=  0.24454581E-01         ZZ= -0.12214524E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19446567E-01 Y=  0.58793287E-11 Z= -0.88987696E-05   Total=     0.01944657
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16125468E+01         XY=  0.18374343E+00         XZ=  0.15376934E+00
                YY=  0.12451038E+01         YZ= -0.84081136E-04         ZZ=  0.12449150E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4814689E-02 Y= -0.2075477E-09 Z=  0.4889645E-02  Total=      0.0068622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211234E+02         XY= -0.24073447E-01         XZ=  0.25698199E-02
                YY= -0.10161379E+02         YZ=  0.24448224E-01         ZZ= -0.12214538E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50149651E-01 Y=  0.40972057E-11 Z= -0.12123232E-04   Total=     0.05014965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21927632E+01         XY=  0.47384553E+00         XZ=  0.41413375E+00
                YY=  0.12451120E+01         YZ= -0.11454791E-03         ZZ=  0.12448693E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6570085E-04 Y= -0.2053083E-09 Z=  0.4888009E-02  Total=      0.0048885
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163745E+02         XY= -0.32850626E-03         XZ=  0.23470259E-01
                YY= -0.10161379E+02         YZ=  0.24440044E-01         ZZ= -0.12214555E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61777523E-01 Y=  0.30869684E-12 Z= -0.13803600E-04   Total=     0.06177752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24125166E+01         XY=  0.58371300E+00         XZ=  0.51691881E+00
                YY=  0.12451297E+01         YZ= -0.13042511E-03         ZZ=  0.12448586E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4713590E-02 Y= -0.2038635E-09 Z=  0.4886631E-02  Total=      0.0067895
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115954E+02         XY=  0.23567946E-01         XZ=  0.44764444E-01
                YY= -0.10161378E+02         YZ=  0.24433154E-01         ZZ= -0.12214568E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49878790E-01 Y= -0.37630130E-11 Z= -0.11598641E-04   Total=     0.04987879
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21876612E+01         XY=  0.47128626E+00         XZ=  0.42280049E+00
                YY=  0.12451309E+01         YZ= -0.10959131E-03         ZZ=  0.12448966E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7701897E-02 Y= -0.2043691E-09 Z=  0.4885780E-02  Total=      0.0091209
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086073E+02         XY=  0.38509484E-01         XZ=  0.58335029E-01
                YY= -0.10161377E+02         YZ=  0.24428900E-01         ZZ= -0.12214576E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18961765E-01 Y= -0.62237340E-11 Z= -0.85167643E-05   Total=     0.01896177
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16033930E+01         XY=  0.17916272E+00         XZ=  0.16741811E+00
                YY=  0.12451126E+01         YZ= -0.80471811E-04         ZZ=  0.12449302E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7758515E-02 Y= -0.2054528E-09 Z=  0.4885003E-02  Total=      0.0091683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085508E+02         XY=  0.38792572E-01         XZ=  0.58997550E-01
                YY= -0.10161376E+02         YZ=  0.24425014E-01         ZZ= -0.12214584E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19213700E-01 Y= -0.58859931E-11 Z= -0.87549568E-05   Total=     0.01921370
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88196877E+00         XY= -0.18154315E+00         XZ= -0.15210040E+00
                YY=  0.12450984E+01         YZ= -0.82722401E-04         ZZ=  0.12449125E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4858746E-02 Y= -0.2037190E-09 Z=  0.4883751E-02  Total=      0.0068890
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114506E+02         XY=  0.24293729E-01         XZ=  0.46481855E-01
                YY= -0.10161376E+02         YZ=  0.24418755E-01         ZZ= -0.12214597E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50109353E-01 Y= -0.28370839E-11 Z= -0.11926151E-04   Total=     0.05010935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29813736E+00         XY= -0.47346477E+00         XZ= -0.41405048E+00
                YY=  0.12451063E+01         YZ= -0.11268582E-03         ZZ=  0.12448675E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1045019E-03 Y= -0.1990233E-09 Z=  0.4882137E-02  Total=      0.0048833
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162049E+02         XY=  0.52250757E-03         XZ=  0.25542888E-01
                YY= -0.10161376E+02         YZ=  0.24410683E-01         ZZ= -0.12214614E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61945202E-01 Y=  0.15738005E-11 Z= -0.13614794E-04   Total=     0.06194520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74490628E-01         XY= -0.58529734E+00         XZ= -0.51851183E+00
                YY=  0.12451238E+01         YZ= -0.12864115E-03         ZZ=  0.12448564E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4694436E-02 Y= -0.1960615E-09 Z=  0.4880775E-02  Total=      0.0067720
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210040E+02         XY= -0.23472183E-01         XZ=  0.41528884E-02
                YY= -0.10161375E+02         YZ=  0.24403874E-01         ZZ= -0.12214627E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50191064E-01 Y=  0.53334622E-11 Z= -0.11464834E-04   Total=     0.05019107
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29660991E+00         XY= -0.47423683E+00         XZ= -0.42549310E+00
                YY=  0.12451252E+01         YZ= -0.10832694E-03         ZZ=  0.12448937E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7709351E-02 Y= -0.1967116E-09 Z=  0.4879936E-02  Total=      0.0091240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240191E+02         XY= -0.38546759E-01         XZ= -0.95370702E-02
                YY= -0.10161374E+02         YZ=  0.24399676E-01         ZZ= -0.12214634E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19300427E-01 Y=  0.66786488E-11 Z= -0.84068197E-05   Total=     0.01930043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88033758E+00         XY= -0.18236260E+00         XZ= -0.17025712E+00
                YY=  0.12451072E+01         YZ= -0.79432877E-04         ZZ=  0.12449272E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7789463E-02 Y= -0.1976508E-09 Z=  0.4879172E-02  Total=      0.0091914
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240994E+02         XY= -0.38947316E-01         XZ= -0.10305042E-01
                YY= -0.10161373E+02         YZ=  0.24395859E-01         ZZ= -0.12214642E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18976927E-01 Y=  0.49059725E-11 Z= -0.86046811E-05   Total=     0.01897693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16036622E+01         XY=  0.17930597E+00         XZ=  0.15006734E+00
                YY=  0.12450930E+01         YZ= -0.81302411E-04         ZZ=  0.12449102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4901173E-02 Y= -0.1960615E-09 Z=  0.4877940E-02  Total=      0.0069149
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212111E+02         XY= -0.24505868E-01         XZ=  0.21506836E-02
                YY= -0.10161373E+02         YZ=  0.24389700E-01         ZZ= -0.12214655E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50064210E-01 Y=  0.70188607E-12 Z= -0.11728541E-04   Total=     0.05006421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21911382E+01         XY=  0.47303823E+00         XZ=  0.41347631E+00
                YY=  0.12451006E+01         YZ= -0.11081865E-03         ZZ=  0.12448657E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1420384E-03 Y= -0.1928829E-09 Z=  0.4876347E-02  Total=      0.0048784
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164520E+02         XY= -0.71019383E-03         XZ=  0.23094294E-01
                YY= -0.10161373E+02         YZ=  0.24381734E-01         ZZ= -0.12214672E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62108861E-01 Y= -0.41618292E-11 Z= -0.13430958E-04   Total=     0.06210886
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24187674E+01         XY=  0.58684369E+00         XZ=  0.51955741E+00
                YY=  0.12451180E+01         YZ= -0.12690420E-03         ZZ=  0.12448543E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4676313E-02 Y= -0.1897043E-09 Z=  0.4875001E-02  Total=      0.0067553
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116338E+02         XY=  0.23381565E-01         XZ=  0.44551862E-01
                YY= -0.10161372E+02         YZ=  0.24375003E-01         ZZ= -0.12214685E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50501575E-01 Y= -0.76318586E-11 Z= -0.11340166E-04   Total=     0.05050158
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21994200E+01         XY=  0.47717073E+00         XZ=  0.42773806E+00
                YY=  0.12451196E+01         YZ= -0.10714910E-03         ZZ=  0.12448907E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7717814E-02 Y= -0.1886929E-09 Z=  0.4874172E-02  Total=      0.0091281
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085926E+02         XY=  0.38589067E-01         XZ=  0.58344296E-01
                YY= -0.10161371E+02         YZ=  0.24370857E-01         ZZ= -0.12214692E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19640142E-01 Y= -0.83059336E-11 Z= -0.83075888E-05   Total=     0.01964014
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16162030E+01         XY=  0.18557245E+00         XZ=  0.17278668E+00
                YY=  0.12451019E+01         YZ= -0.78495406E-04         ZZ=  0.12449241E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7821605E-02 Y= -0.1904989E-09 Z=  0.4873421E-02  Total=      0.0092156
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084889E+02         XY=  0.39108023E-01         XZ=  0.59203219E-01
                YY= -0.10161370E+02         YZ=  0.24367105E-01         ZZ= -0.12214700E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18736803E-01 Y= -0.60663009E-11 Z= -0.84624815E-05   Total=     0.01873680
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89097127E+00         XY= -0.17703713E+00         XZ= -0.14833318E+00
                YY=  0.12450877E+01         YZ= -0.79958912E-04         ZZ=  0.12449078E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4945107E-02 Y= -0.1898488E-09 Z=  0.4872209E-02  Total=      0.0069421
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113654E+02         XY=  0.24725533E-01         XZ=  0.46784105E-01
                YY= -0.10161370E+02         YZ=  0.24361043E-01         ZZ= -0.12214713E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50014814E-01 Y= -0.21229069E-11 Z= -0.11532135E-04   Total=     0.05001482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29991372E+00         XY= -0.47257151E+00         XZ= -0.41331251E+00
                YY=  0.12450951E+01         YZ= -0.10896290E-03         ZZ=  0.12448640E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1813905E-03 Y= -0.1860200E-09 Z=  0.4870637E-02  Total=      0.0048740
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161292E+02         XY=  0.90695070E-03         XZ=  0.25805217E-01
                YY= -0.10161370E+02         YZ=  0.24353184E-01         ZZ= -0.12214729E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62269105E-01 Y=  0.15516026E-11 Z= -0.13240141E-04   Total=     0.06226911
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68359313E-01         XY= -0.58835777E+00         XZ= -0.52108506E+00
                YY=  0.12451122E+01         YZ= -0.12510119E-03         ZZ=  0.12448523E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4656200E-02 Y= -0.1829136E-09 Z=  0.4869308E-02  Total=      0.0067372
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209670E+02         XY= -0.23281000E-01         XZ=  0.42537959E-02
                YY= -0.10161369E+02         YZ=  0.24346536E-01         ZZ= -0.12214742E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50810923E-01 Y=  0.31331290E-11 Z= -0.11203317E-04   Total=     0.05081092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28488630E+00         XY= -0.48009365E+00         XZ= -0.43040453E+00
                YY=  0.12451141E+01         YZ= -0.10585598E-03         ZZ=  0.12448881E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7724321E-02 Y= -0.1821912E-09 Z=  0.4868490E-02  Total=      0.0091306
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240353E+02         XY= -0.38621608E-01         XZ= -0.96579603E-02
                YY= -0.10161368E+02         YZ=  0.24342448E-01         ZZ= -0.12214749E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19981504E-01 Y=  0.17835973E-11 Z= -0.81963907E-05   Total=     0.01998151
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86745775E+00         XY= -0.18879785E+00         XZ= -0.17564563E+00
                YY=  0.12450966E+01         YZ= -0.77444654E-04         ZZ=  0.12449212E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7852039E-02 Y= -0.1839250E-09 Z=  0.4867753E-02  Total=      0.0092385
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241632E+02         XY= -0.39260197E-01         XZ= -0.10623988E-01
                YY= -0.10161368E+02         YZ=  0.24338764E-01         ZZ= -0.12214756E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18492733E-01 Y= -0.19720195E-11 Z= -0.83129816E-05   Total=     0.01849273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15945029E+01         XY=  0.17473100E+00         XZ=  0.14624579E+00
                YY=  0.12450824E+01         YZ= -0.78546309E-04         ZZ=  0.12449056E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4987708E-02 Y= -0.1849364E-09 Z=  0.4866561E-02  Total=      0.0069685
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212988E+02         XY= -0.24938542E-01         XZ=  0.17326095E-02
                YY= -0.10161368E+02         YZ=  0.24332801E-01         ZZ= -0.12214769E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49960552E-01 Y= -0.64973656E-11 Z= -0.11334794E-04   Total=     0.04996055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21891694E+01         XY=  0.47205880E+00         XZ=  0.41267283E+00
                YY=  0.12450896E+01         YZ= -0.10709833E-03         ZZ=  0.12448623E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2197848E-03 Y= -0.1843585E-09 Z=  0.4865010E-02  Total=      0.0048700
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165310E+02         XY= -0.10989260E-02         XZ=  0.22713720E-01
                YY= -0.10161367E+02         YZ=  0.24325049E-01         ZZ= -0.12214785E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62425276E-01 Y= -0.98037856E-11 Z= -0.13054299E-04   Total=     0.06242528
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24247365E+01         XY=  0.58983338E+00         XZ=  0.52207939E+00
                YY=  0.12451066E+01         YZ= -0.12334533E-03         ZZ=  0.12448503E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4636797E-02 Y= -0.1839250E-09 Z=  0.4863696E-02  Total=      0.0067198
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116745E+02         XY=  0.23183981E-01         XZ=  0.44331350E-01
                YY= -0.10161366E+02         YZ=  0.24318480E-01         ZZ= -0.12214798E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51118391E-01 Y= -0.10463638E-10 Z= -0.11075810E-04   Total=     0.05111839
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22110663E+01         XY=  0.48299879E+00         XZ=  0.43263268E+00
                YY=  0.12451086E+01         YZ= -0.10465132E-03         ZZ=  0.12448853E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7731498E-02 Y= -0.1847919E-09 Z=  0.4862890E-02  Total=      0.0091337
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085801E+02         XY=  0.38657487E-01         XZ=  0.58345910E-01
                YY= -0.10161365E+02         YZ=  0.24314446E-01         ZZ= -0.12214805E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20323719E-01 Y= -0.82523960E-11 Z= -0.80961732E-05   Total=     0.02032372
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16291115E+01         XY=  0.19203132E+00         XZ=  0.17820177E+00
                YY=  0.12450914E+01         YZ= -0.76497820E-04         ZZ=  0.12449183E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7883303E-02 Y= -0.1855865E-09 Z=  0.4862166E-02  Total=      0.0092621
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084284E+02         XY=  0.39416514E-01         XZ=  0.59404976E-01
                YY= -0.10161365E+02         YZ=  0.24310826E-01         ZZ= -0.12214812E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18245595E-01 Y= -0.42270377E-11 Z= -0.81719199E-05   Total=     0.01824560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90024451E+00         XY= -0.17239589E+00         XZ= -0.14444843E+00
                YY=  0.12450773E+01         YZ= -0.77213489E-04         ZZ=  0.12449034E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5031421E-02 Y= -0.1839250E-09 Z=  0.4860992E-02  Total=      0.0069960
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112803E+02         XY=  0.25157102E-01         XZ=  0.47088190E-01
                YY= -0.10161365E+02         YZ=  0.24304959E-01         ZZ= -0.12214825E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49902393E-01 Y= -0.21283518E-12 Z= -0.11139152E-04   Total=     0.04990239
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30202832E+00         XY= -0.47150928E+00         XZ= -0.41243165E+00
                YY=  0.12450841E+01         YZ= -0.10524973E-03         ZZ=  0.12448607E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2595630E-03 Y= -0.1795906E-09 Z=  0.4859463E-02  Total=      0.0048664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160522E+02         XY=  0.12978131E-02         XZ=  0.26074910E-01
                YY= -0.10161365E+02         YZ=  0.24297315E-01         ZZ= -0.12214841E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62578450E-01 Y=  0.20565115E-11 Z= -0.12861997E-04   Total=     0.06257845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62503392E-01         XY= -0.59128066E+00         XZ= -0.52354535E+00
                YY=  0.12451010E+01         YZ= -0.12152824E-03         ZZ=  0.12448485E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4615876E-02 Y= -0.1763397E-09 Z=  0.4858166E-02  Total=      0.0067013
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209278E+02         XY= -0.23079380E-01         XZ=  0.43652357E-02
                YY= -0.10161364E+02         YZ=  0.24290829E-01         ZZ= -0.12214853E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51425167E-01 Y=  0.17404585E-11 Z= -0.10936464E-04   Total=     0.05142517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27326910E+00         XY= -0.48589741E+00         XZ= -0.43527683E+00
                YY=  0.12451032E+01         YZ= -0.10333460E-03         ZZ=  0.12448827E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7737239E-02 Y= -0.1751839E-09 Z=  0.4857371E-02  Total=      0.0091356
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240494E+02         XY= -0.38686195E-01         XZ= -0.97687535E-02
                YY= -0.10161363E+02         YZ=  0.24286855E-01         ZZ= -0.12214860E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20668103E-01 Y= -0.73793931E-12 Z= -0.79840195E-05   Total=     0.02066810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85447384E+00         XY= -0.19528527E+00         XZ= -0.18108441E+00
                YY=  0.12450863E+01         YZ= -0.75438059E-04         ZZ=  0.12449156E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7913427E-02 Y= -0.1755451E-09 Z=  0.4856661E-02  Total=      0.0092849
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242257E+02         XY= -0.39567139E-01         XZ= -0.10936733E-01
                YY= -0.10161362E+02         YZ=  0.24283303E-01         ZZ= -0.12214867E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17993942E-01 Y= -0.39213240E-11 Z= -0.80233125E-05   Total=     0.01799394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15850680E+01         XY=  0.17001811E+00         XZ=  0.14230328E+00
                YY=  0.12450722E+01         YZ= -0.75809351E-04         ZZ=  0.12449013E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5074422E-02 Y= -0.1746059E-09 Z=  0.4855507E-02  Total=      0.0070232
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213867E+02         XY= -0.25372111E-01         XZ=  0.13148529E-02
                YY= -0.10161362E+02         YZ=  0.24277535E-01         ZZ= -0.12214880E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49838763E-01 Y= -0.60300610E-11 Z= -0.10942202E-04   Total=     0.04983876
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21868582E+01         XY=  0.47090807E+00         XZ=  0.41172365E+00
                YY=  0.12450788E+01         YZ= -0.10338888E-03         ZZ=  0.12448592E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2990580E-03 Y= -0.1722220E-09 Z=  0.4854000E-02  Total=      0.0048632
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166114E+02         XY= -0.14952921E-02         XZ=  0.22327840E-01
                YY= -0.10161362E+02         YZ=  0.24269997E-01         ZZ= -0.12214896E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62726937E-01 Y= -0.58147948E-11 Z= -0.12674350E-04   Total=     0.06272694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24304271E+01         XY=  0.59268366E+00         XZ=  0.52448659E+00
                YY=  0.12450954E+01         YZ= -0.11975530E-03         ZZ=  0.12448467E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4594939E-02 Y= -0.1701993E-09 Z=  0.4852719E-02  Total=      0.0066830
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117176E+02         XY=  0.22974693E-01         XZ=  0.44102322E-01
                YY= -0.10161361E+02         YZ=  0.24263592E-01         ZZ= -0.12214908E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51729482E-01 Y= -0.31457059E-11 Z= -0.10806376E-04   Total=     0.05172948
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22226047E+01         XY=  0.48877277E+00         XZ=  0.43748759E+00
                YY=  0.12450978E+01         YZ= -0.10210548E-03         ZZ=  0.12448801E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7742876E-02 Y= -0.1687544E-09 Z=  0.4851935E-02  Total=      0.0091375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085698E+02         XY=  0.38714377E-01         XZ=  0.58339463E-01
                YY= -0.10161360E+02         YZ=  0.24259673E-01         ZZ= -0.12214915E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21012846E-01 Y=  0.93973630E-12 Z= -0.78831853E-05   Total=     0.02101285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16421252E+01         XY=  0.19854262E+00         XZ=  0.18366810E+00
                YY=  0.12450813E+01         YZ= -0.74485300E-04         ZZ=  0.12449128E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7943572E-02 Y= -0.1681765E-09 Z=  0.4851237E-02  Total=      0.0093078
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083693E+02         XY=  0.39717860E-01         XZ=  0.59602662E-01
                YY= -0.10161359E+02         YZ=  0.24256185E-01         ZZ= -0.12214922E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17739583E-01 Y=  0.47480665E-11 Z= -0.78840172E-05   Total=     0.01773959
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90979780E+00         XY= -0.16761477E+00         XZ= -0.14044001E+00
                YY=  0.12450672E+01         YZ= -0.74493129E-04         ZZ=  0.12448992E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5117701E-02 Y= -0.1666595E-09 Z=  0.4850103E-02  Total=      0.0070508
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111952E+02         XY=  0.25588501E-01         XZ=  0.47394258E-01
                YY= -0.10161359E+02         YZ=  0.24250511E-01         ZZ= -0.12214934E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49771437E-01 Y=  0.67497632E-11 Z= -0.10748278E-04   Total=     0.04977144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30449349E+00         XY= -0.47027193E+00         XZ= -0.41140056E+00
                YY=  0.12450735E+01         YZ= -0.10155646E-03         ZZ=  0.12448578E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3390925E-03 Y= -0.1634809E-09 Z=  0.4848616E-02  Total=      0.0048605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159738E+02         XY=  0.16954607E-02         XZ=  0.26352450E-01
                YY= -0.10161359E+02         YZ=  0.24243080E-01         ZZ= -0.12214949E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62872465E-01 Y=  0.63122043E-11 Z= -0.12481726E-04   Total=     0.06287247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56937429E-01         XY= -0.59405870E+00         XZ= -0.52588485E+00
                YY=  0.12450900E+01         YZ= -0.11793517E-03         ZZ=  0.12448450E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4573328E-02 Y= -0.1610247E-09 Z=  0.4847353E-02  Total=      0.0066642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208864E+02         XY= -0.22866640E-01         XZ=  0.44880146E-02
                YY= -0.10161358E+02         YZ=  0.24236761E-01         ZZ= -0.12214961E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52033017E-01 Y=  0.39935976E-11 Z= -0.10665723E-04   Total=     0.05203302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26177296E+00         XY= -0.49164076E+00         XZ= -0.44010280E+00
                YY=  0.12450925E+01         YZ= -0.10077645E-03         ZZ=  0.12448778E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7747912E-02 Y= -0.1617471E-09 Z=  0.4846581E-02  Total=      0.0091389
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240612E+02         XY= -0.38739561E-01         XZ= -0.98683837E-02
                YY= -0.10161357E+02         YZ=  0.24232901E-01         ZZ= -0.12214968E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21359603E-01 Y=  0.12571838E-11 Z= -0.77712038E-05   Total=     0.02135960
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84139759E+00         XY= -0.20181900E+00         XZ= -0.18656831E+00
                YY=  0.12450763E+01         YZ= -0.73427226E-04         ZZ=  0.12449102E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7973401E-02 Y= -0.1632641E-09 Z=  0.4845896E-02  Total=      0.0093305
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242868E+02         XY= -0.39867006E-01         XZ= -0.11242073E-01
                YY= -0.10161357E+02         YZ=  0.24229480E-01         ZZ= -0.12214975E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17480858E-01 Y= -0.25568431E-12 Z= -0.77373439E-05   Total=     0.01748086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15753633E+01         XY=  0.16517017E+00         XZ=  0.13824166E+00
                YY=  0.12450622E+01         YZ= -0.73107308E-04         ZZ=  0.12448973E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5161082E-02 Y= -0.1626140E-09 Z=  0.4844781E-02  Total=      0.0070787
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214745E+02         XY= -0.25805413E-01         XZ=  0.89859764E-03
                YY= -0.10161357E+02         YZ=  0.24223904E-01         ZZ= -0.12214987E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49698718E-01 Y=  0.46285319E-12 Z= -0.10552536E-04   Total=     0.04969872
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21842023E+01         XY=  0.46958483E+00         XZ=  0.41062660E+00
                YY=  0.12450683E+01         YZ= -0.99707010E-04         ZZ=  0.12448564E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3796562E-03 Y= -0.1616748E-09 Z=  0.4843316E-02  Total=      0.0048582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166931E+02         XY= -0.18982830E-02         XZ=  0.21937648E-01
                YY= -0.10161357E+02         YZ=  0.24216580E-01         ZZ= -0.12215003E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63013281E-01 Y=  0.32864467E-11 Z= -0.12292586E-04   Total=     0.06301328
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24358284E+01         XY=  0.59538922E+00         XZ=  0.52677297E+00
                YY=  0.12450846E+01         YZ= -0.11614808E-03         ZZ=  0.12448433E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4550883E-02 Y= -0.1597966E-09 Z=  0.4842069E-02  Total=      0.0066450
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117627E+02         XY=  0.22754411E-01         XZ=  0.43865454E-01
                YY= -0.10161356E+02         YZ=  0.24210342E-01         ZZ= -0.12215014E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52333958E-01 Y=  0.70087180E-11 Z= -0.10532711E-04   Total=     0.05233396
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22340183E+01         XY=  0.49448424E+00         XZ=  0.44229403E+00
                YY=  0.12450873E+01         YZ= -0.99519636E-04         ZZ=  0.12448753E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7752014E-02 Y= -0.1579906E-09 Z=  0.4841308E-02  Total=      0.0091396
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085618E+02         XY=  0.38760066E-01         XZ=  0.58325245E-01
                YY= -0.10161355E+02         YZ=  0.24206539E-01         ZZ= -0.12215021E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21706509E-01 Y=  0.99341700E-11 Z= -0.76689965E-05   Total=     0.02170651
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16552249E+01         XY=  0.20509679E+00         XZ=  0.18917599E+00
                YY=  0.12450713E+01         YZ= -0.72461434E-04         ZZ=  0.12449076E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8002403E-02 Y= -0.1570514E-09 Z=  0.4840637E-02  Total=      0.0093526
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083115E+02         XY=  0.40012015E-01         XZ=  0.59796189E-01
                YY= -0.10161354E+02         YZ=  0.24203182E-01         ZZ= -0.12215028E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17219664E-01 Y=  0.10718637E-10 Z= -0.75991954E-05   Total=     0.01721967
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91961419E+00         XY= -0.16270224E+00         XZ= -0.13631642E+00
                YY=  0.12450574E+01         YZ= -0.71801902E-04         ZZ=  0.12448952E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5203880E-02 Y= -0.1540173E-09 Z=  0.4839540E-02  Total=      0.0071064
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111101E+02         XY=  0.26019396E-01         XZ=  0.47701929E-01
                YY= -0.10161354E+02         YZ=  0.24197700E-01         ZZ= -0.12215040E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49622519E-01 Y=  0.90480393E-11 Z= -0.10360281E-04   Total=     0.04962252
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30729836E+00         XY= -0.46886485E+00         XZ= -0.41022485E+00
                YY=  0.12450632E+01         YZ= -0.97890400E-04         ZZ=  0.12448550E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4198848E-03 Y= -0.1486715E-09 Z=  0.4838097E-02  Total=      0.0048563
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158941E+02         XY=  0.20994219E-02         XZ=  0.26637310E-01
                YY= -0.10161354E+02         YZ=  0.24190482E-01         ZZ= -0.12215055E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63151296E-01 Y=  0.58176714E-11 Z= -0.12100134E-04   Total=     0.06315130
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51658679E-01         XY= -0.59669327E+00         XZ= -0.52810538E+00
                YY=  0.12450793E+01         YZ= -0.11432965E-03         ZZ=  0.12448418E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4528645E-02 Y= -0.1437591E-09 Z=  0.4836866E-02  Total=      0.0066260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208428E+02         XY= -0.22643226E-01         XZ=  0.46216077E-02
                YY= -0.10161353E+02         YZ=  0.24184330E-01         ZZ= -0.12215066E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52634204E-01 Y=  0.27153036E-11 Z= -0.10391363E-04   Total=     0.05263421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25040296E+00         XY= -0.49732116E+00         XZ= -0.44488053E+00
                YY=  0.12450821E+01         YZ= -0.98184132E-04         ZZ=  0.12448731E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7756398E-02 Y= -0.1426755E-09 Z=  0.4836118E-02  Total=      0.0091406
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240708E+02         XY= -0.38781990E-01         XZ= -0.99572441E-02
                YY= -0.10161352E+02         YZ=  0.24180587E-01         ZZ= -0.12215073E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22055444E-01 Y=  0.14015775E-11 Z= -0.75575003E-05   Total=     0.02205544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82823955E+00         XY= -0.20839374E+00         XZ= -0.19209265E+00
                YY=  0.12450665E+01         YZ= -0.71408018E-04         ZZ=  0.12449051E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8031970E-02 Y= -0.1439759E-09 Z=  0.4835460E-02  Total=      0.0093752
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243465E+02         XY= -0.40159850E-01         XZ= -0.11540189E-01
                YY= -0.10161352E+02         YZ=  0.24177296E-01         ZZ= -0.12215080E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16954150E-01 Y=  0.26818187E-11 Z= -0.74543634E-05   Total=     0.01695415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15654014E+01         XY=  0.16019351E+00         XZ=  0.13406695E+00
                YY=  0.12450525E+01         YZ= -0.70433505E-04         ZZ=  0.12448934E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5247652E-02 Y= -0.1433257E-09 Z=  0.4834382E-02  Total=      0.0071351
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215622E+02         XY= -0.26238263E-01         XZ=  0.48389984E-03
                YY= -0.10161352E+02         YZ=  0.24171910E-01         ZZ= -0.12215091E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49541034E-01 Y=  0.60782802E-11 Z= -0.10165457E-04   Total=     0.04954103
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21812134E+01         XY=  0.46809493E+00         XZ=  0.40938772E+00
                YY=  0.12450581E+01         YZ= -0.96049602E-04         ZZ=  0.12448538E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4615019E-03 Y= -0.1407973E-09 Z=  0.4832960E-02  Total=      0.0048549
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167761E+02         XY= -0.23075116E-02         XZ=  0.21543426E-01
                YY= -0.10161351E+02         YZ=  0.24164799E-01         ZZ= -0.12215106E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63284775E-01 Y=  0.10023463E-10 Z= -0.11909373E-04   Total=     0.06328478
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24409494E+01         XY=  0.59795447E+00         XZ=  0.52894377E+00
                YY=  0.12450740E+01         YZ= -0.11252719E-03         ZZ=  0.12448403E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4504734E-02 Y= -0.1374019E-09 Z=  0.4831747E-02  Total=      0.0066059
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118100E+02         XY=  0.22523668E-01         XZ=  0.43621216E-01
                YY= -0.10161351E+02         YZ=  0.24158731E-01         ZZ= -0.12215118E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52932128E-01 Y=  0.12595090E-10 Z= -0.10255843E-04   Total=     0.05293213
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22453130E+01         XY=  0.50013613E+00         XZ=  0.44705622E+00
                YY=  0.12450770E+01         YZ= -0.96903570E-04         ZZ=  0.12448708E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7759038E-02 Y= -0.1345123E-09 Z=  0.4831009E-02  Total=      0.0091401
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085558E+02         XY=  0.38795187E-01         XZ=  0.58303888E-01
                YY= -0.10161350E+02         YZ=  0.24155045E-01         ZZ= -0.12215124E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22404921E-01 Y=  0.12451057E-10 Z= -0.74552038E-05   Total=     0.02240492
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16684145E+01         XY=  0.21169583E+00         XZ=  0.19472895E+00
                YY=  0.12450617E+01         YZ= -0.70441364E-04         ZZ=  0.12449026E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8059941E-02 Y= -0.1341511E-09 Z=  0.4830364E-02  Total=      0.0093965
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082551E+02         XY=  0.40299702E-01         XZ=  0.59986338E-01
                YY= -0.10161349E+02         YZ=  0.24151817E-01         ZZ= -0.12215131E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16685636E-01 Y=  0.95108650E-11 Z= -0.73195929E-05   Total=     0.01668564
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92969743E+00         XY= -0.15765641E+00         XZ= -0.13207447E+00
                YY=  0.12450478E+01         YZ= -0.69160051E-04         ZZ=  0.12448914E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5290123E-02 Y= -0.1325618E-09 Z=  0.4829305E-02  Total=      0.0071629
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110249E+02         XY=  0.26450613E-01         XZ=  0.48012131E-01
                YY= -0.10161349E+02         YZ=  0.24146523E-01         ZZ= -0.12215142E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49455405E-01 Y=  0.50434959E-11 Z= -0.99776796E-05   Total=     0.04945541
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31044735E+00         XY= -0.46728586E+00         XZ= -0.40890156E+00
                YY=  0.12450531E+01         YZ= -0.94275368E-04         ZZ=  0.12448524E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5021273E-03 Y= -0.1294555E-09 Z=  0.4827904E-02  Total=      0.0048539
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158130E+02         XY=  0.25106345E-02         XZ=  0.26930543E-01
                YY= -0.10161349E+02         YZ=  0.24139517E-01         ZZ= -0.12215157E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63414698E-01 Y=  0.11004941E-11 Z= -0.11719716E-04   Total=     0.06341470
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46671736E-01         XY= -0.59918206E+00         XZ= -0.53020462E+00
                YY=  0.12450688E+01         YZ= -0.11073526E-03         ZZ=  0.12448388E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4481621E-02 Y= -0.1260601E-09 Z=  0.4826707E-02  Total=      0.0065865
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207968E+02         XY= -0.22408107E-01         XZ=  0.47671484E-02
                YY= -0.10161348E+02         YZ=  0.24133533E-01         ZZ= -0.12215168E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53228573E-01 Y= -0.44953672E-12 Z= -0.10115534E-04   Total=     0.05322857
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23916206E+00         XY= -0.50293712E+00         XZ= -0.44960924E+00
                YY=  0.12450720E+01         YZ= -0.95577945E-04         ZZ=  0.12448686E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7762485E-02 Y= -0.1244709E-09 Z=  0.4825982E-02  Total=      0.0091404
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240779E+02         XY= -0.38812428E-01         XZ= -0.10034216E-01
                YY= -0.10161347E+02         YZ=  0.24129907E-01         ZZ= -0.12215174E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22755686E-01 Y=  0.11677609E-11 Z= -0.73448674E-05   Total=     0.02275569
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81499856E+00         XY= -0.21501007E+00         XZ= -0.19765918E+00
                YY=  0.12450569E+01         YZ= -0.69398928E-04         ZZ=  0.12449002E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8088941E-02 Y= -0.1254100E-09 Z=  0.4825349E-02  Total=      0.0094189
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244045E+02         XY= -0.40444707E-01         XZ= -0.11830105E-01
                YY= -0.10161347E+02         YZ=  0.24126745E-01         ZZ= -0.12215181E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16413438E-01 Y=  0.52175401E-11 Z= -0.71766357E-05   Total=     0.01641344
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15551752E+01         XY=  0.15508452E+00         XZ=  0.12977425E+00
                YY=  0.12450431E+01         YZ= -0.67809336E-04         ZZ=  0.12448897E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5333984E-02 Y= -0.1252655E-09 Z=  0.4824310E-02  Total=      0.0071920
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216496E+02         XY= -0.26669924E-01         XZ=  0.71455597E-04
                YY= -0.10161347E+02         YZ=  0.24121546E-01         ZZ= -0.12215192E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49364987E-01 Y=  0.97504578E-11 Z= -0.97837401E-05   Total=     0.04936499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21778777E+01         XY=  0.46643153E+00         XZ=  0.40799906E+00
                YY=  0.12450482E+01         YZ= -0.92442864E-04         ZZ=  0.12448513E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5445176E-03 Y= -0.1228816E-09 Z=  0.4822930E-02  Total=      0.0048536
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168601E+02         XY= -0.27225900E-02         XZ=  0.21145480E-01
                YY= -0.10161346E+02         YZ=  0.24114647E-01         ZZ= -0.12215207E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63540445E-01 Y=  0.12489700E-10 Z= -0.11527506E-04   Total=     0.06354045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24457717E+01         XY=  0.60037020E+00         XZ=  0.53098912E+00
                YY=  0.12450637E+01         YZ= -0.10891904E-03         ZZ=  0.12448375E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4456489E-02 Y= -0.1189083E-09 Z=  0.4821750E-02  Total=      0.0065658
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118593E+02         XY=  0.22282441E-01         XZ=  0.43369489E-01
                YY= -0.10161346E+02         YZ=  0.24108748E-01         ZZ= -0.12215218E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53522955E-01 Y=  0.11901736E-10 Z= -0.99777861E-05   Total=     0.05352296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22564692E+01         XY=  0.50571864E+00         XZ=  0.45176421E+00
                YY=  0.12450670E+01         YZ= -0.94276314E-04         ZZ=  0.12448665E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7763868E-02 Y= -0.1167411E-09 Z=  0.4821036E-02  Total=      0.0091389
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085521E+02         XY=  0.38819337E-01         XZ=  0.58274894E-01
                YY= -0.10161345E+02         YZ=  0.24105180E-01         ZZ= -0.12215224E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23107215E-01 Y=  0.79499900E-11 Z= -0.72426663E-05   Total=     0.02310722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16816777E+01         XY=  0.21833154E+00         XZ=  0.20031902E+00
                YY=  0.12450523E+01         YZ= -0.68433211E-04         ZZ=  0.12448978E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8116050E-02 Y= -0.1175357E-09 Z=  0.4820416E-02  Total=      0.0094396
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082000E+02         XY=  0.40580249E-01         XZ=  0.60172359E-01
                YY= -0.10161344E+02         YZ=  0.24102080E-01         ZZ= -0.12215230E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16137994E-01 Y=  0.21636349E-11 Z= -0.70452371E-05   Total=     0.01613800
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94003822E+00         XY= -0.15248195E+00         XZ= -0.12771841E+00
                YY=  0.12450385E+01         YZ= -0.66567823E-04         ZZ=  0.12448878E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5376278E-02 Y= -0.1170301E-09 Z=  0.4819395E-02  Total=      0.0072202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109398E+02         XY=  0.26881386E-01         XZ=  0.48324039E-01
                YY= -0.10161344E+02         YZ=  0.24096971E-01         ZZ= -0.12215241E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49270105E-01 Y= -0.30303000E-11 Z= -0.96002412E-05   Total=     0.04927011
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31394030E+00         XY= -0.46553503E+00         XZ= -0.40743040E+00
                YY=  0.12450433E+01         YZ= -0.90709156E-04         ZZ=  0.12448501E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5856866E-03 Y= -0.1144294E-09 Z=  0.4818036E-02  Total=      0.0048535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157304E+02         XY=  0.29284310E-02         XZ=  0.27231437E-01
                YY= -0.10161344E+02         YZ=  0.24090176E-01         ZZ= -0.12215256E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63662215E-01 Y= -0.54149023E-11 Z= -0.11340274E-04   Total=     0.06366222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41985255E-01         XY= -0.60152076E+00         XZ= -0.53217805E+00
                YY=  0.12450587E+01         YZ= -0.10715010E-03         ZZ=  0.12448361E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4432339E-02 Y= -0.1129123E-09 Z=  0.4816872E-02  Total=      0.0065458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207486E+02         XY= -0.22161695E-01         XZ=  0.49241813E-02
                YY= -0.10161343E+02         YZ=  0.24084360E-01         ZZ= -0.12215267E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53815337E-01 Y= -0.40208641E-11 Z= -0.98380790E-05   Total=     0.05381534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22806511E+00         XY= -0.50848124E+00         XZ= -0.45428147E+00
                YY=  0.12450621E+01         YZ= -0.92956405E-04         ZZ=  0.12448645E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7766190E-02 Y= -0.1125511E-09 Z=  0.4816171E-02  Total=      0.0091383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240826E+02         XY= -0.38830951E-01         XZ= -0.10099417E-01
                YY= -0.10161342E+02         YZ=  0.24080852E-01         ZZ= -0.12215273E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23459425E-01 Y=  0.39310743E-12 Z= -0.71332700E-05   Total=     0.02345943
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80169175E+00         XY= -0.22165945E+00         XZ= -0.20325937E+00
                YY=  0.12450477E+01         YZ= -0.67399627E-04         ZZ=  0.12448956E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8144263E-02 Y= -0.1142127E-09 Z=  0.4815564E-02  Total=      0.0094614
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244608E+02         XY= -0.40721316E-01         XZ= -0.12111603E-01
                YY= -0.10161342E+02         YZ=  0.24077818E-01         ZZ= -0.12215279E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15859532E-01 Y=  0.56543436E-11 Z= -0.69045109E-05   Total=     0.01585953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15446999E+01         XY=  0.14985086E+00         XZ=  0.12537128E+00
                YY=  0.12450340E+01         YZ= -0.65238122E-04         ZZ=  0.12448862E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5419974E-02 Y= -0.1144294E-09 Z=  0.4814561E-02  Total=      0.0072496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217366E+02         XY= -0.27099872E-01         XZ= -0.33824501E-03
                YY= -0.10161342E+02         YZ=  0.24072802E-01         ZZ= -0.12215290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49171136E-01 Y=  0.91536156E-11 Z= -0.94082675E-05   Total=     0.04917114
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21742059E+01         XY=  0.46459990E+00         XZ=  0.40646624E+00
                YY=  0.12450386E+01         YZ= -0.88895165E-04         ZZ=  0.12448491E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6285690E-03 Y= -0.1112508E-09 Z=  0.4813223E-02  Total=      0.0048541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169452E+02         XY= -0.31428471E-02         XZ=  0.20744471E-01
                YY= -0.10161342E+02         YZ=  0.24066113E-01         ZZ= -0.12215304E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63780531E-01 Y=  0.90463032E-11 Z= -0.11148189E-04   Total=     0.06378053
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24502997E+01         XY=  0.60263868E+00         XZ=  0.53291191E+00
                YY=  0.12450537E+01         YZ= -0.10533504E-03         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4406286E-02 Y= -0.1090836E-09 Z=  0.4812077E-02  Total=      0.0065247
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119105E+02         XY=  0.22031430E-01         XZ=  0.43110993E-01
                YY= -0.10161341E+02         YZ=  0.24060383E-01         ZZ= -0.12215315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54106388E-01 Y=  0.51203384E-11 Z= -0.96997139E-05   Total=     0.05410639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22674859E+01         XY=  0.51123127E+00         XZ=  0.45641831E+00
                YY=  0.12450573E+01         YZ= -0.91648968E-04         ZZ=  0.12448625E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7766630E-02 Y= -0.1085779E-09 Z=  0.4811387E-02  Total=      0.0091362
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085503E+02         XY=  0.38833148E-01         XZ=  0.58238948E-01
                YY= -0.10161340E+02         YZ=  0.24056933E-01         ZZ= -0.12215321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23813132E-01 Y= -0.10749970E-11 Z= -0.70324455E-05   Total=     0.02381313
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16950097E+01         XY=  0.22500149E+00         XZ=  0.20594452E+00
                YY=  0.12450431E+01         YZ= -0.66446986E-04         ZZ=  0.12448933E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8170834E-02 Y= -0.1087224E-09 Z=  0.4810792E-02  Total=      0.0094819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081462E+02         XY=  0.40854166E-01         XZ=  0.60354842E-01
                YY= -0.10161339E+02         YZ=  0.24053959E-01         ZZ= -0.12215327E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15577103E-01 Y= -0.69081802E-11 Z= -0.67772955E-05   Total=     0.01557710
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95062968E+00         XY= -0.14718229E+00         XZ= -0.12325120E+00
                YY=  0.12450295E+01         YZ= -0.64036216E-04         ZZ=  0.12448844E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5462416E-02 Y= -0.1064829E-09 Z=  0.4809807E-02  Total=      0.0072782
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108547E+02         XY=  0.27312079E-01         XZ=  0.48638106E-01
                YY= -0.10161339E+02         YZ=  0.24049032E-01         ZZ= -0.12215337E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49067013E-01 Y= -0.98534467E-11 Z= -0.92293359E-05   Total=     0.04906701
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31776979E+00         XY= -0.46361608E+00         XZ= -0.40581507E+00
                YY=  0.12450339E+01         YZ= -0.87204664E-04         ZZ=  0.12448479E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6706050E-03 Y= -0.1025097E-09 Z=  0.4808489E-02  Total=      0.0048550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156465E+02         XY=  0.33530232E-02         XZ=  0.27540283E-01
                YY= -0.10161339E+02         YZ=  0.24042445E-01         ZZ= -0.12215351E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63894236E-01 Y= -0.86451531E-11 Z= -0.10963047E-04   Total=     0.06389424
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37591897E-01         XY= -0.60371304E+00         XZ= -0.53402985E+00
                YY=  0.12450488E+01         YZ= -0.10358585E-03         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4380787E-02 Y= -0.1009204E-09 Z=  0.4807360E-02  Total=      0.0065040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206980E+02         XY= -0.21903936E-01         XZ=  0.50928120E-02
                YY= -0.10161338E+02         YZ=  0.24036799E-01         ZZ= -0.12215362E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54394887E-01 Y= -0.38661950E-11 Z= -0.95596167E-05   Total=     0.05439489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21710475E+00         XY= -0.51395720E+00         XZ= -0.45890181E+00
                YY=  0.12450525E+01         YZ= -0.90325315E-04         ZZ=  0.12448607E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7767533E-02 Y= -0.1007759E-09 Z=  0.4806682E-02  Total=      0.0091345
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240850E+02         XY= -0.38837667E-01         XZ= -0.10152952E-01
                YY= -0.10161338E+02         YZ=  0.24033409E-01         ZZ= -0.12215368E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24167076E-01 Y=  0.23043042E-11 Z= -0.69225967E-05   Total=     0.02416708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78831128E+00         XY= -0.22834578E+00         XZ= -0.20889823E+00
                YY=  0.12450387E+01         YZ= -0.65409036E-04         ZZ=  0.12448912E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8197994E-02 Y= -0.1008481E-09 Z=  0.4806101E-02  Total=      0.0095029
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245155E+02         XY= -0.40989972E-01         XZ= -0.12385017E-01
                YY= -0.10161337E+02         YZ=  0.24030501E-01         ZZ= -0.12215374E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15291981E-01 Y=  0.70736416E-11 Z= -0.66375496E-05   Total=     0.01529198
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15339670E+01         XY=  0.14448828E+00         XZ=  0.12085280E+00
                YY=  0.12450251E+01         YZ= -0.62715691E-04         ZZ=  0.12448829E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5505720E-02 Y= -0.9976451E-10 Z=  0.4805134E-02  Total=      0.0073077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218233E+02         XY= -0.27528603E-01         XZ= -0.74577194E-03
                YY= -0.10161337E+02         YZ=  0.24025666E-01         ZZ= -0.12215384E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48959016E-01 Y=  0.83027784E-11 Z= -0.90387050E-05   Total=     0.04895902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21701892E+01         XY=  0.46259566E+00         XZ=  0.40478423E+00
                YY=  0.12450293E+01         YZ= -0.85403311E-04         ZZ=  0.12448470E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7137942E-03 Y= -0.9571902E-10 Z=  0.4803837E-02  Total=      0.0048566
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170314E+02         XY= -0.35689727E-02         XZ=  0.20339616E-01
                YY= -0.10161337E+02         YZ=  0.24019184E-01         ZZ= -0.12215398E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64004610E-01 Y=  0.54791133E-11 Z= -0.10771175E-04   Total=     0.06400461
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24545255E+01         XY=  0.60475592E+00         XZ=  0.53470798E+00
                YY=  0.12450440E+01         YZ= -0.10177280E-03         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4353958E-02 Y= -0.9319060E-10 Z=  0.4802725E-02  Total=      0.0064825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119638E+02         XY=  0.21769788E-01         XZ=  0.42844791E-01
                YY= -0.10161336E+02         YZ=  0.24013623E-01         ZZ= -0.12215408E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54682123E-01 Y= -0.52526732E-13 Z= -0.94211301E-05   Total=     0.05468212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22783574E+01         XY=  0.51667119E+00         XZ=  0.46101600E+00
                YY=  0.12450478E+01         YZ= -0.89016775E-04         ZZ=  0.12448588E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7767137E-02 Y= -0.9333508E-10 Z=  0.4802059E-02  Total=      0.0091317
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085508E+02         XY=  0.38835685E-01         XZ=  0.58195050E-01
                YY= -0.10161335E+02         YZ=  0.24010291E-01         ZZ= -0.12215414E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24522568E-01 Y= -0.57057574E-11 Z= -0.68237086E-05   Total=     0.02452257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17084084E+01         XY=  0.23170468E+00         XZ=  0.21160521E+00
                YY=  0.12450342E+01         YZ= -0.64474746E-04         ZZ=  0.12448890E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8224105E-02 Y= -0.9485213E-10 Z=  0.4801489E-02  Total=      0.0095231
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080939E+02         XY=  0.41120525E-01         XZ=  0.60532827E-01
                YY= -0.10161335E+02         YZ=  0.24007442E-01         ZZ= -0.12215420E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15002821E-01 Y= -0.88328810E-11 Z= -0.65150469E-05   Total=     0.01500282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96147446E+00         XY= -0.14175612E+00         XZ= -0.11867059E+00
                YY=  0.12450208E+01         YZ= -0.61558341E-04         ZZ=  0.12448812E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5548375E-02 Y= -0.9557454E-10 Z=  0.4800539E-02  Total=      0.0073369
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107697E+02         XY=  0.27741871E-01         XZ=  0.48953521E-01
                YY= -0.10161335E+02         YZ=  0.24002692E-01         ZZ= -0.12215430E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48845748E-01 Y= -0.79294492E-11 Z= -0.88649863E-05   Total=     0.04884575
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32194298E+00         XY= -0.46152543E+00         XZ= -0.40405113E+00
                YY=  0.12450247E+01         YZ= -0.83762043E-04         ZZ=  0.12448460E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7567573E-03 Y= -0.9311836E-10 Z=  0.4799262E-02  Total=      0.0048586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155614E+02         XY=  0.37837846E-02         XZ=  0.27856491E-01
                YY= -0.10161335E+02         YZ=  0.23996310E-01         ZZ= -0.12215443E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64110201E-01 Y= -0.33114404E-11 Z= -0.10589095E-04   Total=     0.06411020
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33502240E-01         XY= -0.60575361E+00         XZ= -0.53575411E+00
                YY=  0.12450393E+01         YZ= -0.10005247E-03         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4327042E-02 Y= -0.9008424E-10 Z=  0.4798167E-02  Total=      0.0064611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206453E+02         XY= -0.21635211E-01         XZ=  0.52727123E-02
                YY= -0.10161334E+02         YZ=  0.23990832E-01         ZZ= -0.12215454E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54966586E-01 Y=  0.30430634E-11 Z= -0.92821082E-05   Total=     0.05496659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20629302E+00         XY= -0.51935897E+00         XZ= -0.46346400E+00
                YY=  0.12450432E+01         YZ= -0.87703182E-04         ZZ=  0.12448571E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7766542E-02 Y= -0.8827822E-10 Z=  0.4797513E-02  Total=      0.0091288
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240849E+02         XY= -0.38832714E-01         XZ= -0.10194899E-01
                YY= -0.10161333E+02         YZ=  0.23987561E-01         ZZ= -0.12215460E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24878045E-01 Y=  0.84082708E-11 Z= -0.67154782E-05   Total=     0.02487805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77486836E+00         XY= -0.23506346E+00         XZ= -0.21457025E+00
                YY=  0.12450299E+01         YZ= -0.63451998E-04         ZZ=  0.12448870E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8250121E-02 Y= -0.8835047E-10 Z=  0.4796956E-02  Total=      0.0095433
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245686E+02         XY= -0.41250607E-01         XZ= -0.12650232E-01
                YY= -0.10161333E+02         YZ=  0.23984776E-01         ZZ= -0.12215465E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14711220E-01 Y=  0.10558318E-10 Z= -0.63788921E-05   Total=     0.01471122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15229848E+01         XY=  0.13900088E+00         XZ=  0.11622262E+00
                YY=  0.12450166E+01         YZ= -0.60271701E-04         ZZ=  0.12448797E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5591184E-02 Y= -0.8842271E-10 Z=  0.4796024E-02  Total=      0.0073664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219097E+02         XY= -0.27955924E-01         XZ= -0.11509016E-02
                YY= -0.10161333E+02         YZ=  0.23980116E-01         ZZ= -0.12215475E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48728824E-01 Y=  0.87721159E-11 Z= -0.86784135E-05   Total=     0.04872883
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21658312E+01         XY=  0.46042066E+00         XZ=  0.40295450E+00
                YY=  0.12450203E+01         YZ= -0.81999045E-04         ZZ=  0.12448451E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8001494E-03 Y= -0.8611100E-10 Z=  0.4794768E-02  Total=      0.0048611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171187E+02         XY= -0.40007490E-02         XZ=  0.19931151E-01
                YY= -0.10161332E+02         YZ=  0.23973838E-01         ZZ= -0.12215488E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64212620E-01 Y=  0.41377015E-11 Z= -0.10399468E-04   Total=     0.06421262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24584480E+01         XY=  0.60672133E+00         XZ=  0.53637644E+00
                YY=  0.12450346E+01         YZ= -0.98260689E-04         ZZ=  0.12448305E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4299533E-02 Y= -0.8351033E-10 Z=  0.4793689E-02  Total=      0.0064394
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120192E+02         XY=  0.21497664E-01         XZ=  0.42571043E-01
                YY= -0.10161332E+02         YZ=  0.23968445E-01         ZZ= -0.12215499E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55249868E-01 Y= -0.97724788E-12 Z= -0.91441144E-05   Total=     0.05524987
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22890781E+01         XY=  0.52203559E+00         XZ=  0.46555439E+00
                YY=  0.12450386E+01         YZ= -0.86399362E-04         ZZ=  0.12448553E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7765392E-02 Y= -0.8307689E-10 Z=  0.4793047E-02  Total=      0.0091255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085535E+02         XY=  0.38826959E-01         XZ=  0.58143221E-01
                YY= -0.10161331E+02         YZ=  0.23965231E-01         ZZ= -0.12215504E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25235075E-01 Y= -0.40318081E-11 Z= -0.66175594E-05   Total=     0.02523508
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17218654E+01         XY=  0.23843690E+00         XZ=  0.21729689E+00
                YY=  0.12450257E+01         YZ= -0.62526902E-04         ZZ=  0.12448849E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8275833E-02 Y= -0.8430498E-10 Z=  0.4792501E-02  Total=      0.0095633
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080431E+02         XY=  0.41379162E-01         XZ=  0.60706168E-01
                YY= -0.10161330E+02         YZ=  0.23962504E-01         ZZ= -0.12215510E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14415644E-01 Y= -0.34794712E-11 Z= -0.62591062E-05   Total=     0.01441565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97256320E+00         XY= -0.13620809E+00         XZ= -0.11398121E+00
                YY=  0.12450124E+01         YZ= -0.59140006E-04         ZZ=  0.12448781E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5634087E-02 Y= -0.8372706E-10 Z=  0.4791586E-02  Total=      0.0073961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106849E+02         XY=  0.28170432E-01         XZ=  0.49269968E-01
                YY= -0.10161330E+02         YZ=  0.23957928E-01         ZZ= -0.12215520E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48606742E-01 Y=  0.54202543E-12 Z= -0.85077680E-05   Total=     0.04860674
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32645172E+00         XY= -0.45926715E+00         XZ= -0.40214270E+00
                YY=  0.12450159E+01         YZ= -0.80386747E-04         ZZ=  0.12448441E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8440518E-03 Y= -0.8076518E-10 Z=  0.4790350E-02  Total=      0.0048641
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154750E+02         XY=  0.42202570E-02         XZ=  0.28179612E-01
                YY= -0.10161330E+02         YZ=  0.23951748E-01         ZZ= -0.12215533E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64310392E-01 Y=  0.63102538E-11 Z= -0.10218832E-04   Total=     0.06431039
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29710943E-01         XY= -0.60764514E+00         XZ= -0.53735379E+00
                YY=  0.12450300E+01         YZ= -0.96553911E-04         ZZ=  0.12448294E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4271209E-02 Y= -0.7765883E-10 Z=  0.4789288E-02  Total=      0.0064172
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205904E+02         XY= -0.21356045E-01         XZ=  0.54633488E-02
                YY= -0.10161330E+02         YZ=  0.23946438E-01         ZZ= -0.12215543E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55530521E-01 Y=  0.11348086E-10 Z= -0.90052632E-05   Total=     0.05553052
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19562824E+00         XY= -0.52468739E+00         XZ= -0.46796941E+00
                YY=  0.12450341E+01         YZ= -0.85087304E-04         ZZ=  0.12448537E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7763323E-02 Y= -0.7455248E-10 Z=  0.4788657E-02  Total=      0.0091214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240826E+02         XY= -0.38816615E-01         XZ= -0.10225821E-01
                YY= -0.10161329E+02         YZ=  0.23943284E-01         ZZ= -0.12215548E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25592237E-01 Y=  0.13586452E-10 Z= -0.65105863E-05   Total=     0.02559224
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76136479E+00         XY= -0.24181159E+00         XZ= -0.22027519E+00
                YY=  0.12450214E+01         YZ= -0.61516004E-04         ZZ=  0.12448830E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8300738E-02 Y= -0.7440800E-10 Z=  0.4788124E-02  Total=      0.0095827
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246202E+02         XY= -0.41503692E-01         XZ= -0.12907785E-01
                YY= -0.10161328E+02         YZ=  0.23940620E-01         ZZ= -0.12215554E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14117479E-01 Y=  0.12311405E-10 Z= -0.61264241E-05   Total=     0.01411748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15117575E+01         XY=  0.13339085E+00         XZ=  0.11148224E+00
                YY=  0.12450083E+01         YZ= -0.57886208E-04         ZZ=  0.12448767E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5676444E-02 Y= -0.7368559E-10 Z=  0.4787227E-02  Total=      0.0074256
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219959E+02         XY= -0.28382221E-01         XZ= -0.15541108E-02
                YY= -0.10161328E+02         YZ=  0.23936132E-01         ZZ= -0.12215563E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48480848E-01 Y=  0.84603221E-11 Z= -0.83250641E-05   Total=     0.04848085
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21611375E+01         XY=  0.45807763E+00         XZ=  0.40097937E+00
                YY=  0.12450115E+01         YZ= -0.78660377E-04         ZZ=  0.12448434E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8876938E-03 Y= -0.6964010E-10 Z=  0.4786011E-02  Total=      0.0048676
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172072E+02         XY= -0.44384710E-02         XZ=  0.19518679E-01
                YY= -0.10161328E+02         YZ=  0.23930054E-01         ZZ= -0.12215576E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64404823E-01 Y=  0.41400508E-11 Z= -0.10030933E-04   Total=     0.06440482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24620720E+01         XY=  0.60853738E+00         XZ=  0.53791981E+00
                YY=  0.12450254E+01         YZ= -0.94778539E-04         ZZ=  0.12448286E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4242968E-02 Y= -0.6573910E-10 Z=  0.4784966E-02  Total=      0.0063952
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120766E+02         XY=  0.21214837E-01         XZ=  0.42289436E-01
                YY= -0.10161327E+02         YZ=  0.23924828E-01         ZZ= -0.12215586E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55809813E-01 Y=  0.16051935E-11 Z= -0.88668542E-05   Total=     0.05580981
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22996517E+01         XY=  0.52732631E+00         XZ=  0.47003577E+00
                YY=  0.12450297E+01         YZ= -0.83779609E-04         ZZ=  0.12448521E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7761360E-02 Y= -0.6414981E-10 Z=  0.4784347E-02  Total=      0.0091175
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085584E+02         XY=  0.38806799E-01         XZ=  0.58083225E-01
                YY= -0.10161327E+02         YZ=  0.23921733E-01         ZZ= -0.12215591E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25950766E-01 Y=  0.21893515E-11 Z= -0.64125845E-05   Total=     0.02595077
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17353828E+01         XY=  0.24519920E+00         XZ=  0.22302145E+00
                YY=  0.12450173E+01         YZ= -0.60590116E-04         ZZ=  0.12448810E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8325989E-02 Y= -0.6516118E-10 Z=  0.4783826E-02  Total=      0.0096025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079939E+02         XY=  0.41629941E-01         XZ=  0.60874699E-01
                YY= -0.10161326E+02         YZ=  0.23919126E-01         ZZ= -0.12215597E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13815507E-01 Y=  0.56931187E-11 Z= -0.60086068E-05   Total=     0.01381551
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98389710E+00         XY= -0.13053762E+00         XZ= -0.10918146E+00
                YY=  0.12450043E+01         YZ= -0.56773050E-04         ZZ=  0.12448752E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5719531E-02 Y= -0.6458325E-10 Z=  0.4782944E-02  Total=      0.0074558
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106004E+02         XY=  0.28597655E-01         XZ=  0.49587349E-01
                YY= -0.10161326E+02         YZ=  0.23914720E-01         ZZ= -0.12215606E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48349927E-01 Y=  0.10510506E-10 Z= -0.81573659E-05   Total=     0.04834993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33129727E+00         XY= -0.45684060E+00         XZ= -0.40008836E+00
                YY=  0.12450073E+01         YZ= -0.77075842E-04         ZZ=  0.12448425E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9324754E-03 Y= -0.5988760E-10 Z=  0.4781748E-02  Total=      0.0048718
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153875E+02         XY=  0.46623752E-02         XZ=  0.28509617E-01
                YY= -0.10161326E+02         YZ=  0.23908738E-01         ZZ= -0.12215619E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64494694E-01 Y=  0.14421683E-10 Z= -0.98521671E-05   Total=     0.06449469
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26220160E-01         XY= -0.60938654E+00         XZ= -0.53882745E+00
                YY=  0.12450210E+01         YZ= -0.93089360E-04         ZZ=  0.12448276E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4213288E-02 Y= -0.5540867E-10 Z=  0.4780719E-02  Total=      0.0063724
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205334E+02         XY= -0.21066440E-01         XZ=  0.56647571E-02
                YY= -0.10161325E+02         YZ=  0.23903595E-01         ZZ= -0.12215629E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56086527E-01 Y=  0.15667032E-10 Z= -0.87287677E-05   Total=     0.05608653
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18511355E+00         XY= -0.52994088E+00         XZ= -0.47241662E+00
                YY=  0.12450253E+01         YZ= -0.82474763E-04         ZZ=  0.12448506E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7757860E-02 Y= -0.5316921E-10 Z=  0.4780112E-02  Total=      0.0091123
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240781E+02         XY= -0.38789300E-01         XZ= -0.10245627E-01
                YY= -0.10161325E+02         YZ=  0.23900560E-01         ZZ= -0.12215634E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26309471E-01 Y=  0.13782548E-10 Z= -0.63072613E-05   Total=     0.02630947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74780396E+00         XY= -0.24858847E+00         XZ= -0.22601202E+00
                YY=  0.12450132E+01         YZ= -0.59594860E-04         ZZ=  0.12448792E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8349820E-02 Y= -0.5273576E-10 Z=  0.4779603E-02  Total=      0.0096210
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246702E+02         XY= -0.41749100E-01         XZ= -0.13157563E-01
                YY= -0.10161324E+02         YZ=  0.23898014E-01         ZZ= -0.12215639E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13510872E-01 Y=  0.98015603E-11 Z= -0.58794496E-05   Total=     0.01351087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15002874E+01         XY=  0.12765924E+00         XZ=  0.10663183E+00
                YY=  0.12450003E+01         YZ= -0.55552658E-04         ZZ=  0.12448739E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5761471E-02 Y= -0.5237456E-10 Z=  0.4778739E-02  Total=      0.0074854
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220819E+02         XY= -0.28807358E-01         XZ= -0.19553128E-02
                YY= -0.10161324E+02         YZ=  0.23893694E-01         ZZ= -0.12215648E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48215050E-01 Y=  0.57300840E-11 Z= -0.79782606E-05   Total=     0.04821505
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21561072E+01         XY=  0.45556620E+00         XZ=  0.39885761E+00
                YY=  0.12450031E+01         YZ= -0.75383581E-04         ZZ=  0.12448418E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9764124E-03 Y= -0.5049630E-10 Z=  0.4777563E-02  Total=      0.0048763
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172968E+02         XY= -0.48820640E-02         XZ=  0.19102194E-01
                YY= -0.10161324E+02         YZ=  0.23887813E-01         ZZ= -0.12215661E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64580987E-01 Y=  0.35564281E-11 Z= -0.96653968E-05   Total=     0.06458099
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24653931E+01         XY=  0.61020189E+00         XZ=  0.53933532E+00
                YY=  0.12450166E+01         YZ= -0.91324726E-04         ZZ=  0.12448269E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4184250E-02 Y= -0.4861804E-10 Z=  0.4776551E-02  Total=      0.0063501
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121363E+02         XY=  0.20921248E-01         XZ=  0.41999816E-01
                YY= -0.10161323E+02         YZ=  0.23882754E-01         ZZ= -0.12215670E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56361553E-01 Y=  0.42756061E-11 Z= -0.85889829E-05   Total=     0.05636155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23100705E+01         XY=  0.53253950E+00         XZ=  0.47445622E+00
                YY=  0.12450210E+01         YZ= -0.81154083E-04         ZZ=  0.12448491E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7754993E-02 Y= -0.4811235E-10 Z=  0.4775956E-02  Total=      0.0091077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085657E+02         XY=  0.38774965E-01         XZ=  0.58014738E-01
                YY= -0.10161323E+02         YZ=  0.23879778E-01         ZZ= -0.12215675E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26669160E-01 Y=  0.74028800E-11 Z= -0.62079692E-05   Total=     0.02666916
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17489516E+01         XY=  0.25198705E+00         XZ=  0.22877473E+00
                YY=  0.12450092E+01         YZ= -0.58656738E-04         ZZ=  0.12448774E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8374489E-02 Y= -0.4905148E-10 Z=  0.4775458E-02  Total=      0.0096404
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079463E+02         XY=  0.41872443E-01         XZ=  0.61037941E-01
                YY= -0.10161322E+02         YZ=  0.23877289E-01         ZZ= -0.12215680E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13202816E-01 Y=  0.11212500E-10 Z= -0.57624755E-05   Total=     0.01320282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99546851E+00         XY= -0.12474853E+00         XZ= -0.10427456E+00
                YY=  0.12449964E+01         YZ= -0.54447400E-04         ZZ=  0.12448725E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5804602E-02 Y= -0.4767891E-10 Z=  0.4774610E-02  Total=      0.0075160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105162E+02         XY=  0.29023010E-01         XZ=  0.49905105E-01
                YY= -0.10161322E+02         YZ=  0.23873050E-01         ZZ= -0.12215690E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48075482E-01 Y=  0.13586110E-10 Z= -0.78128090E-05   Total=     0.04807548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33647626E+00         XY= -0.45424747E+00         XZ= -0.39788914E+00
                YY=  0.12449990E+01         YZ= -0.73820224E-04         ZZ=  0.12448410E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1021923E-02 Y= -0.4305550E-10 Z=  0.4773453E-02  Total=      0.0048816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152989E+02         XY=  0.51096135E-02         XZ=  0.28845970E-01
                YY= -0.10161322E+02         YZ=  0.23867264E-01         ZZ= -0.12215702E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64662965E-01 Y=  0.13060313E-10 Z= -0.94883085E-05   Total=     0.06466297
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23032596E-01         XY= -0.61097648E+00         XZ= -0.54017330E+00
                YY=  0.12450123E+01         YZ= -0.89651405E-04         ZZ=  0.12448260E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4153358E-02 Y= -0.3901002E-10 Z=  0.4772458E-02  Total=      0.0063267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204743E+02         XY= -0.20766793E-01         XZ=  0.58765428E-02
                YY= -0.10161321E+02         YZ=  0.23862287E-01         ZZ= -0.12215711E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56634145E-01 Y=  0.95638528E-11 Z= -0.84517690E-05   Total=     0.05663415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17475763E+00         XY= -0.53511512E+00         XZ= -0.47680126E+00
                YY=  0.12450168E+01         YZ= -0.79857555E-04         ZZ=  0.12448477E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7750187E-02 Y= -0.3633711E-10 Z=  0.4771874E-02  Total=      0.0091014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240713E+02         XY= -0.38750938E-01         XZ= -0.10254487E-01
                YY= -0.10161320E+02         YZ=  0.23859370E-01         ZZ= -0.12215716E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27029088E-01 Y=  0.44795176E-11 Z= -0.61044254E-05   Total=     0.02702909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73419834E+00         XY= -0.25538787E+00         XZ= -0.23177479E+00
                YY=  0.12450053E+01         YZ= -0.57678414E-04         ZZ=  0.12448757E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8397347E-02 Y= -0.3561470E-10 Z=  0.4771389E-02  Total=      0.0096582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247185E+02         XY= -0.41986734E-01         XZ= -0.13399489E-01
                YY= -0.10161320E+02         YZ=  0.23856942E-01         ZZ= -0.12215721E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12892067E-01 Y= -0.77765473E-14 Z= -0.56368517E-05   Total=     0.01289207
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14885870E+01         XY=  0.12181238E+00         XZ=  0.10167723E+00
                YY=  0.12449926E+01         YZ= -0.53260521E-04         ZZ=  0.12448712E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5846203E-02 Y= -0.3575918E-10 Z=  0.4770558E-02  Total=      0.0075456
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221674E+02         XY= -0.29231016E-01         XZ= -0.23542295E-02
                YY= -0.10161320E+02         YZ=  0.23852787E-01         ZZ= -0.12215730E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47931908E-01 Y= -0.19695054E-11 Z= -0.76371766E-05   Total=     0.04793191
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21507495E+01         XY=  0.45289089E+00         XZ=  0.39659329E+00
                YY=  0.12449950E+01         YZ= -0.72160868E-04         ZZ=  0.12448404E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1066219E-02 Y= -0.3395316E-10 Z=  0.4769420E-02  Total=      0.0048871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173875E+02         XY= -0.53310962E-02         XZ=  0.18682076E-01
                YY= -0.10161320E+02         YZ=  0.23847100E-01         ZZ= -0.12215742E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64741252E-01 Y= -0.68694915E-12 Z= -0.93024215E-05   Total=     0.06474125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24684142E+01         XY=  0.61171618E+00         XZ=  0.54062411E+00
                YY=  0.12450080E+01         YZ= -0.87895141E-04         ZZ=  0.12448254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4123460E-02 Y= -0.3185818E-10 Z=  0.4768442E-02  Total=      0.0063040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121979E+02         XY=  0.20617301E-01         XZ=  0.41702536E-01
                YY= -0.10161319E+02         YZ=  0.23842207E-01         ZZ= -0.12215752E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56904856E-01 Y=  0.29662696E-11 Z= -0.83102947E-05   Total=     0.05690486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23203302E+01         XY=  0.53767297E+00         XZ=  0.47881370E+00
                YY=  0.12450126E+01         YZ= -0.78520872E-04         ZZ=  0.12448464E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7746342E-02 Y= -0.3171370E-10 Z=  0.4767870E-02  Total=      0.0090961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085752E+02         XY=  0.38731708E-01         XZ=  0.57937967E-01
                YY= -0.10161319E+02         YZ=  0.23839350E-01         ZZ= -0.12215756E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27389743E-01 Y=  0.69125622E-11 Z= -0.60036438E-05   Total=     0.02738974
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17625619E+01         XY=  0.25879557E+00         XZ=  0.23455228E+00
                YY=  0.12450014E+01         YZ= -0.56726145E-04         ZZ=  0.12448740E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8421340E-02 Y= -0.3207490E-10 Z=  0.4767396E-02  Total=      0.0096771
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079003E+02         XY=  0.42106698E-01         XZ=  0.61195902E-01
                YY= -0.10161318E+02         YZ=  0.23836980E-01         ZZ= -0.12215761E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12578189E-01 Y=  0.88570091E-11 Z= -0.55209016E-05   Total=     0.01257819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10072657E+01         XY= -0.11884666E+00         XZ= -0.99265837E-01
                YY=  0.12449888E+01         YZ= -0.52164876E-04         ZZ=  0.12448699E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5889263E-02 Y= -0.3019664E-10 Z=  0.4766581E-02  Total=      0.0075765
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104324E+02         XY=  0.29446311E-01         XZ=  0.50223044E-01
                YY= -0.10161318E+02         YZ=  0.23832904E-01         ZZ= -0.12215770E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47783928E-01 Y=  0.74094994E-11 Z= -0.74746387E-05   Total=     0.04778393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34197884E+00         XY= -0.45149269E+00         XZ= -0.39554964E+00
                YY=  0.12449910E+01         YZ= -0.70625029E-04         ZZ=  0.12448397E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1112329E-02 Y= -0.2644012E-10 Z=  0.4765463E-02  Total=      0.0048936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152094E+02         XY=  0.55616408E-02         XZ=  0.29188346E-01
                YY= -0.10161318E+02         YZ=  0.23827311E-01         ZZ= -0.12215782E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64815481E-01 Y=  0.27988675E-11 Z= -0.91279351E-05   Total=     0.06481548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20143033E-01         XY= -0.61241754E+00         XZ= -0.54139401E+00
                YY=  0.12450039E+01         YZ= -0.86246454E-04         ZZ=  0.12448247E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4091493E-02 Y= -0.2239464E-10 Z=  0.4764500E-02  Total=      0.0062802
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204133E+02         XY= -0.20457469E-01         XZ=  0.60983345E-02
                YY= -0.10161317E+02         YZ=  0.23822498E-01         ZZ= -0.12215791E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57173358E-01 Y= -0.31750400E-11 Z= -0.81747117E-05   Total=     0.05717336
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16456078E+00         XY= -0.54020994E+00         XZ= -0.48112364E+00
                YY=  0.12450085E+01         YZ= -0.77239848E-04         ZZ=  0.12448451E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7740364E-02 Y= -0.2145551E-10 Z=  0.4763940E-02  Total=      0.0090889
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240623E+02         XY= -0.38701824E-01         XZ= -0.10252731E-01
                YY= -0.10161317E+02         YZ=  0.23819700E-01         ZZ= -0.12215796E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27750847E-01 Y= -0.79512735E-11 Z= -0.59022139E-05   Total=     0.02775085
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72055248E+00         XY= -0.26220751E+00         XZ= -0.23756199E+00
                YY=  0.12449976E+01         YZ= -0.55767896E-04         ZZ=  0.12448724E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8443352E-02 Y= -0.2398394E-10 Z=  0.4763478E-02  Total=      0.0096944
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247654E+02         XY= -0.42216764E-01         XZ= -0.13633799E-01
                YY= -0.10161316E+02         YZ=  0.23817388E-01         ZZ= -0.12215800E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12261389E-01 Y= -0.94118367E-11 Z= -0.53988329E-05   Total=     0.01226139
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14766626E+01         XY=  0.11585334E+00         XZ=  0.96620739E-01
                YY=  0.12449851E+01         YZ= -0.51011647E-04         ZZ=  0.12448688E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5930648E-02 Y= -0.2448962E-10 Z=  0.4762679E-02  Total=      0.0076063
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222527E+02         XY= -0.29653241E-01         XZ= -0.27510021E-02
                YY= -0.10161316E+02         YZ=  0.23813395E-01         ZZ= -0.12215809E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47631670E-01 Y= -0.69128134E-11 Z= -0.73025120E-05   Total=     0.04763167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21450690E+01         XY=  0.45005406E+00         XZ=  0.39418830E+00
                YY=  0.12449872E+01         YZ= -0.68998787E-04         ZZ=  0.12448392E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1157109E-02 Y= -0.2181671E-10 Z=  0.4761580E-02  Total=      0.0049002
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174792E+02         XY= -0.57855467E-02         XZ=  0.18258240E-01
                YY= -0.10161316E+02         YZ=  0.23807900E-01         ZZ= -0.12215821E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64885695E-01 Y= -0.16438582E-11 Z= -0.89431980E-05   Total=     0.06488570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24711364E+01         XY=  0.61308097E+00         XZ=  0.54178695E+00
                YY=  0.12449998E+01         YZ= -0.84500979E-04         ZZ=  0.12448242E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4060602E-02 Y= -0.2037190E-10 Z=  0.4760635E-02  Total=      0.0062572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122616E+02         XY=  0.20303009E-01         XZ=  0.41397518E-01
                YY= -0.10161315E+02         YZ=  0.23803171E-01         ZZ= -0.12215830E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57439622E-01 Y=  0.38725173E-11 Z= -0.80320364E-05   Total=     0.05743962
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23304287E+01         XY=  0.54272577E+00         XZ=  0.48310790E+00
                YY=  0.12450045E+01         YZ= -0.75891704E-04         ZZ=  0.12448440E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7735397E-02 Y= -0.1950501E-10 Z=  0.4760087E-02  Total=      0.0090827
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085869E+02         XY=  0.38676982E-01         XZ=  0.57852815E-01
                YY= -0.10161315E+02         YZ=  0.23800433E-01         ZZ= -0.12215834E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28112327E-01 Y=  0.69297249E-11 Z= -0.58005307E-05   Total=     0.02811233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17762103E+01         XY=  0.26562300E+00         XZ=  0.24035340E+00
                YY=  0.12449938E+01         YZ= -0.54807005E-04         ZZ=  0.12448708E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8466519E-02 Y= -0.1762675E-10 Z=  0.4759636E-02  Total=      0.0097127
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078559E+02         XY=  0.42332594E-01         XZ=  0.61348464E-01
                YY= -0.10161314E+02         YZ=  0.23798179E-01         ZZ= -0.12215839E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11941762E-01 Y=  0.59065562E-11 Z= -0.52845246E-05   Total=     0.01194176
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10192862E+01         XY= -0.11283330E+00         XZ= -0.94155414E-01
                YY=  0.12449815E+01         YZ= -0.49931463E-04         ZZ=  0.12448676E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5973486E-02 Y= -0.1618193E-10 Z=  0.4758853E-02  Total=      0.0076374
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103490E+02         XY=  0.29867426E-01         XZ=  0.50541074E-01
                YY= -0.10161314E+02         YZ=  0.23794264E-01         ZZ= -0.12215847E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47475231E-01 Y=  0.10617905E-11 Z= -0.71435259E-05   Total=     0.04747523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34780567E+00         XY= -0.44857592E+00         XZ= -0.39306863E+00
                YY=  0.12449834E+01         YZ= -0.67496520E-04         ZZ=  0.12448385E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1203678E-02 Y= -0.1307558E-10 Z=  0.4757772E-02  Total=      0.0049077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151188E+02         XY=  0.60183861E-02         XZ=  0.29536735E-01
                YY= -0.10161314E+02         YZ=  0.23788860E-01         ZZ= -0.12215859E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64951994E-01 Y= -0.55327740E-11 Z= -0.87719408E-05   Total=     0.06495200
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17556158E-01         XY= -0.61370741E+00         XZ= -0.54248686E+00
                YY=  0.12449957E+01         YZ= -0.82882866E-04         ZZ=  0.12448235E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4027681E-02 Y= -0.1040267E-10 Z=  0.4756843E-02  Total=      0.0062330
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203503E+02         XY= -0.20138407E-01         XZ=  0.63302566E-02
                YY= -0.10161313E+02         YZ=  0.23784211E-01         ZZ= -0.12215868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57703772E-01 Y= -0.10909117E-10 Z= -0.78986664E-05   Total=     0.05770377
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15453046E+00         XY= -0.54522163E+00         XZ= -0.48538023E+00
                YY=  0.12450005E+01         YZ= -0.74631664E-04         ZZ=  0.12448427E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7728349E-02 Y= -0.9680264E-11 Z=  0.4756307E-02  Total=      0.0090747
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240511E+02         XY= -0.38641745E-01         XZ= -0.10240100E-01
                YY= -0.10161313E+02         YZ=  0.23781531E-01         ZZ= -0.12215872E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28474359E-01 Y= -0.12560976E-10 Z= -0.57018327E-05   Total=     0.02847436
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70687375E+00         XY= -0.26904371E+00         XZ= -0.24337060E+00
                YY=  0.12449902E+01         YZ= -0.53874608E-04         ZZ=  0.12448693E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8487772E-02 Y= -0.9969227E-11 Z=  0.4755867E-02  Total=      0.0097294
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248106E+02         XY= -0.42438863E-01         XZ= -0.13860157E-01
                YY= -0.10161312E+02         YZ=  0.23779335E-01         ZZ= -0.12215877E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11619040E-01 Y= -0.96185537E-11 Z= -0.51668849E-05   Total=     0.01161904
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14645178E+01         XY=  0.10978402E+00         XZ=  0.91463381E-01
                YY=  0.12449779E+01         YZ= -0.48820059E-04         ZZ=  0.12448665E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6014740E-02 Y= -0.1011371E-10 Z=  0.4755100E-02  Total=      0.0076673
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223376E+02         XY= -0.30073701E-01         XZ= -0.31453238E-02
                YY= -0.10161312E+02         YZ=  0.23775499E-01         ZZ= -0.12215885E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47314221E-01 Y= -0.32927976E-11 Z= -0.69762159E-05   Total=     0.04731422
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21390635E+01         XY=  0.44705460E+00         XZ=  0.39164073E+00
                YY=  0.12449796E+01         YZ= -0.65915706E-04         ZZ=  0.12448381E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1249042E-02 Y= -0.8379930E-11 Z=  0.4754039E-02  Total=      0.0049154
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175720E+02         XY= -0.62452119E-02         XZ=  0.17830838E-01
                YY= -0.10161312E+02         YZ=  0.23770191E-01         ZZ= -0.12215896E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65013849E-01 Y=  0.36341235E-11 Z= -0.85900350E-05   Total=     0.06501385
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24735512E+01         XY=  0.61429185E+00         XZ=  0.54281894E+00
                YY=  0.12449918E+01         YZ= -0.81164029E-04         ZZ=  0.12448231E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3995667E-02 Y= -0.5779262E-11 Z=  0.4753125E-02  Total=      0.0062095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123273E+02         XY=  0.19978331E-01         XZ=  0.41084655E-01
                YY= -0.10161312E+02         YZ=  0.23765626E-01         ZZ= -0.12215905E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57965134E-01 Y=  0.80503651E-11 Z= -0.77565441E-05   Total=     0.05796513
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23403526E+01         XY=  0.54769114E+00         XZ=  0.48733191E+00
                YY=  0.12449966E+01         YZ= -0.73288645E-04         ZZ=  0.12448417E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7722089E-02 Y= -0.4478928E-11 Z=  0.4752602E-02  Total=      0.0090674
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086010E+02         XY=  0.38610441E-01         XZ=  0.57758873E-01
                YY= -0.10161311E+02         YZ=  0.23763006E-01         ZZ= -0.12215909E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28836139E-01 Y=  0.79292969E-11 Z= -0.56007851E-05   Total=     0.02883614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17898821E+01         XY=  0.27246202E+00         XZ=  0.24617094E+00
                YY=  0.12449865E+01         YZ= -0.52919675E-04         ZZ=  0.12448679E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8509903E-02 Y= -0.4623409E-11 Z=  0.4752174E-02  Total=      0.0097469
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078133E+02         XY=  0.42549511E-01         XZ=  0.61494959E-01
                YY= -0.10161311E+02         YZ=  0.23760866E-01         ZZ= -0.12215913E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11294141E-01 Y=  0.32690316E-11 Z= -0.50554385E-05   Total=     0.01129414
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10315185E+01         XY= -0.10671417E+00         XZ= -0.88948712E-01
                YY=  0.12449745E+01         YZ= -0.47766936E-04         ZZ=  0.12448653E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6057115E-02 Y= -0.4189965E-11 Z=  0.4751422E-02  Total=      0.0076984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102662E+02         XY=  0.30285572E-01         XZ=  0.50858376E-01
                YY= -0.10161310E+02         YZ=  0.23757107E-01         ZZ= -0.12215922E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47149647E-01 Y= -0.38798539E-11 Z= -0.68216908E-05   Total=     0.04714965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35395189E+00         XY= -0.44549960E+00         XZ= -0.39044830E+00
                YY=  0.12449760E+01         YZ= -0.64455661E-04         ZZ=  0.12448375E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1295812E-02 Y= -0.2094982E-11 Z=  0.4750378E-02  Total=      0.0049239
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150275E+02         XY=  0.64790605E-02         XZ=  0.29890322E-01
                YY= -0.10161310E+02         YZ=  0.23751887E-01         ZZ= -0.12215933E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65072341E-01 Y= -0.10319946E-10 Z= -0.84225177E-05   Total=     0.06507234
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15275068E-01         XY= -0.61484452E+00         XZ= -0.54345024E+00
                YY=  0.12449879E+01         YZ= -0.79581338E-04         ZZ=  0.12448225E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3962049E-02 Y=  0.4334446E-12 Z=  0.4749480E-02  Total=      0.0061851
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202854E+02         XY= -0.19810245E-01         XZ=  0.65716453E-02
                YY= -0.10161310E+02         YZ=  0.23747400E-01         ZZ= -0.12215941E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58224854E-01 Y= -0.13140418E-10 Z= -0.76253027E-05   Total=     0.05822485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14467675E+00         XY= -0.55014514E+00         XZ= -0.48956614E+00
                YY=  0.12449928E+01         YZ= -0.72048771E-04         ZZ=  0.12448406E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7714213E-02 Y=  0.2311705E-11 Z=  0.4748968E-02  Total=      0.0090588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240377E+02         XY= -0.38571067E-01         XZ= -0.10216998E-01
                YY= -0.10161309E+02         YZ=  0.23744837E-01         ZZ= -0.12215946E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29198870E-01 Y= -0.11031579E-10 Z= -0.55040578E-05   Total=     0.02919887
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69317639E+00         XY= -0.27588934E+00         XZ= -0.24919373E+00
                YY=  0.12449830E+01         YZ= -0.52005894E-04         ZZ=  0.12448664E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8530617E-02 Y=  0.2094982E-11 Z=  0.4748551E-02  Total=      0.0097632
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248542E+02         XY= -0.42653089E-01         XZ= -0.14078663E-01
                YY= -0.10161309E+02         YZ=  0.23742755E-01         ZZ= -0.12215950E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10965806E-01 Y= -0.48821259E-11 Z= -0.49410114E-05   Total=     0.01096581
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14521676E+01         XY=  0.10361185E+00         XZ=  0.86212436E-01
                YY=  0.12449710E+01         YZ= -0.46685825E-04         ZZ=  0.12448643E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6098434E-02 Y=  0.2167223E-11 Z=  0.4747815E-02  Total=      0.0077287
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224221E+02         XY= -0.30492170E-01         XZ= -0.35370126E-02
                YY= -0.10161309E+02         YZ=  0.23739073E-01         ZZ= -0.12215958E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46980212E-01 Y=  0.26139584E-11 Z= -0.66579536E-05   Total=     0.04698021
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21327453E+01         XY=  0.44389867E+00         XZ=  0.38895686E+00
                YY=  0.12449724E+01         YZ= -0.62908515E-04         ZZ=  0.12448372E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1341931E-02 Y=  0.4262206E-11 Z=  0.4746790E-02  Total=      0.0049328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176656E+02         XY= -0.67096576E-02         XZ=  0.17400270E-01
                YY= -0.10161308E+02         YZ=  0.23733948E-01         ZZ= -0.12215969E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65126147E-01 Y=  0.81637893E-11 Z= -0.82425240E-05   Total=     0.06512615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24756666E+01         XY=  0.61535291E+00         XZ=  0.54372461E+00
                YY=  0.12449841E+01         YZ= -0.77880489E-04         ZZ=  0.12448222E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3928764E-02 Y=  0.7296318E-11 Z=  0.4745909E-02  Total=      0.0061611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123950E+02         XY=  0.19643818E-01         XZ=  0.40764490E-01
                YY= -0.10161308E+02         YZ=  0.23729543E-01         ZZ= -0.12215977E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58481603E-01 Y=  0.93495231E-11 Z= -0.74832519E-05   Total=     0.05848160
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23501059E+01         XY=  0.55257106E+00         XZ=  0.49148846E+00
                YY=  0.12449891E+01         YZ= -0.70706398E-04         ZZ=  0.12448397E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7706537E-02 Y=  0.1025819E-10 Z=  0.4745409E-02  Total=      0.0090504
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086173E+02         XY=  0.38532684E-01         XZ=  0.57656764E-01
                YY= -0.10161307E+02         YZ=  0.23727041E-01         ZZ= -0.12215981E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29561235E-01 Y=  0.57064585E-11 Z= -0.54035504E-05   Total=     0.02956124
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18035785E+01         XY=  0.27931319E+00         XZ=  0.25200629E+00
                YY=  0.12449795E+01         YZ= -0.51056097E-04         ZZ=  0.12448651E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8551611E-02 Y=  0.1040267E-10 Z=  0.4745003E-02  Total=      0.0097798
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077724E+02         XY=  0.42758055E-01         XZ=  0.61636049E-01
                YY= -0.10161307E+02         YZ=  0.23725014E-01         ZZ= -0.12215985E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10635337E-01 Y= -0.10790805E-11 Z= -0.48326363E-05   Total=     0.01063534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10439623E+01         XY= -0.10048937E+00         XZ= -0.83645136E-01
                YY=  0.12449677E+01         YZ= -0.45661797E-04         ZZ=  0.12448632E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6140271E-02 Y=  0.1076388E-10 Z=  0.4744282E-02  Total=      0.0077596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101838E+02         XY=  0.30701353E-01         XZ=  0.51175632E-01
                YY= -0.10161307E+02         YZ=  0.23721407E-01         ZZ= -0.12215993E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46807201E-01 Y= -0.79364708E-11 Z= -0.65083124E-05   Total=     0.04680720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36041702E+00         XY= -0.44226395E+00         XZ= -0.38768853E+00
                YY=  0.12449689E+01         YZ= -0.61494700E-04         ZZ=  0.12448366E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1388853E-02 Y=  0.1264214E-10 Z=  0.4743274E-02  Total=      0.0049424
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149352E+02         XY=  0.69442651E-02         XZ=  0.30249790E-01
                YY= -0.10161307E+02         YZ=  0.23716368E-01         ZZ= -0.12216004E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65176552E-01 Y= -0.11789823E-10 Z= -0.80792475E-05   Total=     0.06517655
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13299142E-01         XY= -0.61582917E+00         XZ= -0.54428460E+00
                YY=  0.12449804E+01         YZ= -0.76337918E-04         ZZ=  0.12448217E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3894478E-02 Y=  0.1365351E-10 Z=  0.4742408E-02  Total=      0.0061366
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202186E+02         XY= -0.19472394E-01         XZ=  0.68231506E-02
                YY= -0.10161306E+02         YZ=  0.23712040E-01         ZZ= -0.12216012E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58736688E-01 Y= -0.10924182E-10 Z= -0.73546130E-05   Total=     0.05873669
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13499802E+00         XY= -0.55498127E+00         XZ= -0.49368284E+00
                YY=  0.12449854E+01         YZ= -0.69491107E-04         ZZ=  0.12448386E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7697851E-02 Y=  0.1459264E-10 Z=  0.4741919E-02  Total=      0.0090412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240221E+02         XY= -0.38489255E-01         XZ= -0.10182865E-01
                YY= -0.10161306E+02         YZ=  0.23709594E-01         ZZ= -0.12216016E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29924588E-01 Y= -0.57280646E-11 Z= -0.53093200E-05   Total=     0.02992459
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67945640E+00         XY= -0.28274638E+00         XZ= -0.25503438E+00
                YY=  0.12449761E+01         YZ= -0.50165846E-04         ZZ=  0.12448637E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8571804E-02 Y=  0.1415919E-10 Z=  0.4741525E-02  Total=      0.0097958
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248962E+02         XY= -0.42859022E-01         XZ= -0.14288924E-01
                YY= -0.10161305E+02         YZ=  0.23707622E-01         ZZ= -0.12216020E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10301305E-01 Y=  0.15124588E-11 Z= -0.47222641E-05   Total=     0.01030131
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14396047E+01         XY=  0.97333223E-01         XZ=  0.80863152E-01
                YY=  0.12449644E+01         YZ= -0.44618910E-04         ZZ=  0.12448622E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6181683E-02 Y=  0.1358127E-10 Z=  0.4740818E-02  Total=      0.0077903
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225061E+02         XY= -0.30908417E-01         XZ= -0.39259131E-02
                YY= -0.10161305E+02         YZ=  0.23704090E-01         ZZ= -0.12216028E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46629098E-01 Y=  0.76615212E-11 Z= -0.63495022E-05   Total=     0.04662910
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21261042E+01         XY=  0.44058112E+00         XZ=  0.38613052E+00
                YY=  0.12449654E+01         YZ= -0.59994031E-04         ZZ=  0.12448363E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1435779E-02 Y=  0.1632641E-10 Z=  0.4739829E-02  Total=      0.0049525
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177602E+02         XY= -0.71788969E-02         XZ=  0.16966411E-01
                YY= -0.10161305E+02         YZ=  0.23699143E-01         ZZ= -0.12216038E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65221953E-01 Y=  0.10138820E-10 Z= -0.79028758E-05   Total=     0.06522195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24774705E+01         XY=  0.61625815E+00         XZ=  0.54449730E+00
                YY=  0.12449767E+01         YZ= -0.74671264E-04         ZZ=  0.12448214E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3859842E-02 Y=  0.1892708E-10 Z=  0.4738980E-02  Total=      0.0061120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124647E+02         XY=  0.19299206E-01         XZ=  0.40436629E-01
                YY= -0.10161304E+02         YZ=  0.23694897E-01         ZZ= -0.12216046E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58988435E-01 Y=  0.80458281E-11 Z= -0.72141985E-05   Total=     0.05898844
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23596773E+01         XY=  0.55735994E+00         XZ=  0.49557176E+00
                YY=  0.12449817E+01         YZ= -0.68164225E-04         ZZ=  0.12448378E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7688649E-02 Y=  0.2066086E-10 Z=  0.4738503E-02  Total=      0.0090315
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086360E+02         XY=  0.38443243E-01         XZ=  0.57545893E-01
                YY= -0.10161304E+02         YZ=  0.23692511E-01         ZZ= -0.12216051E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30287212E-01 Y=  0.25174248E-11 Z= -0.52102562E-05   Total=     0.03028721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18172917E+01         XY=  0.28617268E+00         XZ=  0.25785592E+00
                YY=  0.12449727E+01         YZ= -0.49229761E-04         ZZ=  0.12448624E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8591534E-02 Y=  0.2116655E-10 Z=  0.4738119E-02  Total=      0.0098114
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077332E+02         XY=  0.42957666E-01         XZ=  0.61771064E-01
                YY= -0.10161304E+02         YZ=  0.23690594E-01         ZZ= -0.12216054E+02
  Expectation value of momentum operator [a. u.]
    X= -0.99654406E-02 Y= -0.38437141E-11 Z= -0.46170157E-05   Total=     0.00996544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10566159E+01         XY= -0.94159768E-01         XZ= -0.78244927E-01
                YY=  0.12449611E+01         YZ= -0.43624504E-04         ZZ=  0.12448612E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6222852E-02 Y=  0.2239464E-10 Z=  0.4737427E-02  Total=      0.0078209
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101019E+02         XY=  0.31114258E-01         XZ=  0.51492252E-01
                YY= -0.10161303E+02         YZ=  0.23687134E-01         ZZ= -0.12216062E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46447612E-01 Y= -0.81717102E-11 Z= -0.62041520E-05   Total=     0.04644761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36720631E+00         XY= -0.43886633E+00         XZ= -0.38478592E+00
                YY=  0.12449620E+01         YZ= -0.58620806E-04         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1482738E-02 Y=  0.2629564E-10 Z=  0.4736455E-02  Total=      0.0049631
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148421E+02         XY=  0.74136861E-02         XZ=  0.30614776E-01
                YY= -0.10161303E+02         YZ=  0.23682272E-01         ZZ= -0.12216072E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65264007E-01 Y= -0.86242322E-11 Z= -0.77429728E-05   Total=     0.06526401
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11640075E-01         XY= -0.61665549E+00         XZ= -0.54498336E+00
                YY=  0.12449731E+01         YZ= -0.73160559E-04         ZZ=  0.12448209E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3824971E-02 Y=  0.3005216E-10 Z=  0.4735620E-02  Total=      0.0060874
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201498E+02         XY= -0.19124858E-01         XZ=  0.70847463E-02
                YY= -0.10161303E+02         YZ=  0.23678100E-01         ZZ= -0.12216080E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59238423E-01 Y= -0.51679470E-11 Z= -0.70873503E-05   Total=     0.05923842
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12551032E+00         XY= -0.55972198E+00         XZ= -0.49772170E+00
                YY=  0.12449781E+01         YZ= -0.66965796E-04         ZZ=  0.12448368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7679190E-02 Y=  0.3294179E-10 Z=  0.4735154E-02  Total=      0.0090217
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240042E+02         XY= -0.38395950E-01         XZ= -0.10137344E-01
                YY= -0.10161302E+02         YZ=  0.23675769E-01         ZZ= -0.12216084E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30650593E-01 Y=  0.47257278E-12 Z= -0.51179915E-05   Total=     0.03065059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66573119E+00         XY= -0.28960613E+00         XZ= -0.26088346E+00
                YY=  0.12449693E+01         YZ= -0.48358004E-04         ZZ=  0.12448611E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8611190E-02 Y=  0.3344748E-10 Z=  0.4734782E-02  Total=      0.0098270
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249363E+02         XY= -0.43055954E-01         XZ= -0.14490221E-01
                YY= -0.10161302E+02         YZ=  0.23673906E-01         ZZ= -0.12216088E+02
  Expectation value of momentum operator [a. u.]
    X=  0.96263508E-02 Y=  0.56547044E-11 Z= -0.45105840E-05   Total=     0.00962635
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14268444E+01         XY=  0.90955833E-01         XZ=  0.75423435E-01
                YY=  0.12449579E+01         YZ= -0.42618793E-04         ZZ=  0.12448602E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6264293E-02 Y=  0.3380868E-10 Z=  0.4734104E-02  Total=      0.0078519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225894E+02         XY= -0.31321468E-01         XZ= -0.43110340E-02
                YY= -0.10161302E+02         YZ=  0.23670519E-01         ZZ= -0.12216095E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46261435E-01 Y=  0.80379577E-11 Z= -0.60505773E-05   Total=     0.04626144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21191505E+01         XY=  0.43710721E+00         XZ=  0.38316708E+00
                YY=  0.12449586E+01         YZ= -0.57169600E-04         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1530363E-02 Y=  0.3590366E-10 Z=  0.4733150E-02  Total=      0.0049744
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178555E+02         XY= -0.76518181E-02         XZ=  0.16530394E-01
                YY= -0.10161301E+02         YZ=  0.23665746E-01         ZZ= -0.12216105E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65301477E-01 Y=  0.66197662E-11 Z= -0.75707740E-05   Total=     0.06530148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24789670E+01         XY=  0.61700954E+00         XZ=  0.54513905E+00
                YY=  0.12449695E+01         YZ= -0.71533391E-04         ZZ=  0.12448207E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3789120E-02 Y=  0.3828761E-10 Z=  0.4732331E-02  Total=      0.0060624
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125361E+02         XY=  0.18945596E-01         XZ=  0.40102196E-01
                YY= -0.10161301E+02         YZ=  0.23661654E-01         ZZ= -0.12216113E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59485474E-01 Y=  0.21196474E-11 Z= -0.69490787E-05   Total=     0.05948547
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23690638E+01         XY=  0.56205627E+00         XZ=  0.49958037E+00
                YY=  0.12449746E+01         YZ= -0.65659259E-04         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7668616E-02 Y=  0.3973243E-10 Z=  0.4731877E-02  Total=      0.0090110
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086567E+02         XY=  0.38343077E-01         XZ=  0.57427243E-01
                YY= -0.10161301E+02         YZ=  0.23659382E-01         ZZ= -0.12216117E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31013597E-01 Y= -0.34338881E-11 Z= -0.50206551E-05   Total=     0.03101360
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18310127E+01         XY=  0.29303602E+00         XZ=  0.26371534E+00
                YY=  0.12449660E+01         YZ= -0.47438343E-04         ZZ=  0.12448599E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8629811E-02 Y=  0.3872105E-10 Z=  0.4731515E-02  Total=      0.0098418
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076956E+02         XY=  0.43149055E-01         XZ=  0.61900741E-01
                YY= -0.10161300E+02         YZ=  0.23657573E-01         ZZ= -0.12216120E+02
  Expectation value of momentum operator [a. u.]
    X= -0.92851414E-02 Y= -0.76926448E-11 Z= -0.44085901E-05   Total=     0.00928514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10694664E+01         XY= -0.87731872E-01         XZ= -0.72754716E-01
                YY=  0.12449548E+01         YZ= -0.41655203E-04         ZZ=  0.12448592E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6304940E-02 Y=  0.3828761E-10 Z=  0.4730852E-02  Total=      0.0078825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100205E+02         XY=  0.31524698E-01         XZ=  0.51808663E-01
                YY= -0.10161300E+02         YZ=  0.23654256E-01         ZZ= -0.12216128E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46071658E-01 Y= -0.90750118E-11 Z= -0.59096905E-05   Total=     0.04607166
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37430508E+00         XY= -0.43531408E+00         XZ= -0.38174814E+00
                YY=  0.12449553E+01         YZ= -0.55838559E-04         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1577486E-02 Y=  0.3973243E-10 Z=  0.4729913E-02  Total=      0.0049860
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147480E+02         XY=  0.78874282E-02         XZ=  0.30985384E-01
                YY= -0.10161300E+02         YZ=  0.23649565E-01         ZZ= -0.12216138E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65335448E-01 Y= -0.74420321E-11 Z= -0.74145616E-05   Total=     0.06533545
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10283846E-01         XY= -0.61733052E+00         XZ= -0.54555413E+00
                YY=  0.12449660E+01         YZ= -0.70057517E-04         ZZ=  0.12448203E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3753560E-02 Y=  0.4103276E-10 Z=  0.4729110E-02  Total=      0.0060377
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200791E+02         XY= -0.18767800E-01         XZ=  0.73562396E-02
                YY= -0.10161299E+02         YZ=  0.23645546E-01         ZZ= -0.12216145E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59730671E-01 Y= -0.40673855E-11 Z= -0.68244010E-05   Total=     0.05973067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11620211E+00         XY= -0.56437305E+00         XZ= -0.50168937E+00
                YY=  0.12449711E+01         YZ= -0.64481279E-04         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7658303E-02 Y=  0.4182741E-10 Z=  0.4728666E-02  Total=      0.0090005
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239840E+02         XY= -0.38291518E-01         XZ= -0.10080870E-01
                YY= -0.10161299E+02         YZ=  0.23643328E-01         ZZ= -0.12216149E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31377312E-01 Y= -0.94901451E-12 Z= -0.49306855E-05   Total=     0.03137731
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65199268E+00         XY= -0.29647263E+00         XZ= -0.26674604E+00
                YY=  0.12449628E+01         YZ= -0.46588235E-04         ZZ=  0.12448586E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8648876E-02 Y=  0.4247757E-10 Z=  0.4728315E-02  Total=      0.0098570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249746E+02         XY= -0.43244381E-01         XZ= -0.14683161E-01
                YY= -0.10161299E+02         YZ=  0.23641572E-01         ZZ= -0.12216152E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89407128E-02 Y=  0.18062582E-12 Z= -0.43063913E-05   Total=     0.00894071
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14138825E+01         XY=  0.84477493E-01         XZ=  0.69890123E-01
                YY=  0.12449517E+01         YZ= -0.40689500E-04         ZZ=  0.12448583E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6346375E-02 Y=  0.4247757E-10 Z=  0.4727665E-02  Total=      0.0079137
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226722E+02         XY= -0.31731878E-01         XZ= -0.46930745E-02
                YY= -0.10161298E+02         YZ=  0.23638325E-01         ZZ= -0.12216159E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45877170E-01 Y= -0.13353548E-11 Z= -0.57616847E-05   Total=     0.04587717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21118833E+01         XY=  0.43347644E+00         XZ=  0.38006532E+00
                YY=  0.12449521E+01         YZ= -0.54440043E-04         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1625794E-02 Y=  0.4450032E-10 Z=  0.4726744E-02  Total=      0.0049985
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179516E+02         XY= -0.81289713E-02         XZ=  0.16091504E-01
                YY= -0.10161298E+02         YZ=  0.23633719E-01         ZZ= -0.12216169E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65364810E-01 Y= -0.48267379E-11 Z= -0.72468591E-05   Total=     0.06536481
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24801578E+01         XY=  0.61760795E+00         XZ=  0.54565046E+00
                YY=  0.12449626E+01         YZ= -0.68472936E-04         ZZ=  0.12448201E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3716500E-02 Y=  0.4630634E-10 Z=  0.4725956E-02  Total=      0.0060122
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126094E+02         XY=  0.18582496E-01         XZ=  0.39760537E-01
                YY= -0.10161298E+02         YZ=  0.23629778E-01         ZZ= -0.12216177E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59972926E-01 Y= -0.86999431E-11 Z= -0.66883597E-05   Total=     0.05997293
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23782693E+01         XY=  0.56666203E+00         XZ=  0.50351658E+00
                YY=  0.12449677E+01         YZ= -0.63195914E-04         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7646360E-02 Y=  0.4724547E-10 Z=  0.4725524E-02  Total=      0.0089887
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086796E+02         XY=  0.38231796E-01         XZ=  0.57300290E-01
                YY= -0.10161297E+02         YZ=  0.23627619E-01         ZZ= -0.12216180E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31740701E-01 Y= -0.11270078E-10 Z= -0.48347340E-05   Total=     0.03174070
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18447476E+01         XY=  0.29990616E+00         XZ=  0.26958841E+00
                YY=  0.12449597E+01         YZ= -0.45681712E-04         ZZ=  0.12448575E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8666397E-02 Y=  0.4688426E-10 Z=  0.4725183E-02  Total=      0.0098709
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076597E+02         XY=  0.43331983E-01         XZ=  0.62024754E-01
                YY= -0.10161297E+02         YZ=  0.23625915E-01         ZZ= -0.12216184E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85940170E-02 Y= -0.11595499E-10 Z= -0.42069449E-05   Total=     0.00859402
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10825216E+01         XY= -0.81201693E-01         XZ= -0.67169204E-01
                YY=  0.12449487E+01         YZ= -0.39749968E-04         ZZ=  0.12448574E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6386527E-02 Y=  0.4623409E-10 Z=  0.4724548E-02  Total=      0.0079441
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099396E+02         XY=  0.31932634E-01         XZ=  0.52124801E-01
                YY= -0.10161297E+02         YZ=  0.23622736E-01         ZZ= -0.12216191E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45678801E-01 Y= -0.99046321E-11 Z= -0.56245048E-05   Total=     0.04567880
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38172354E+00         XY= -0.43160212E+00         XZ= -0.37856867E+00
                YY=  0.12449490E+01         YZ= -0.53143953E-04         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1673141E-02 Y=  0.4767891E-10 Z=  0.4723643E-02  Total=      0.0050112
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146530E+02         XY=  0.83657038E-02         XZ=  0.31361859E-01
                YY= -0.10161297E+02         YZ=  0.23618211E-01         ZZ= -0.12216200E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65390236E-01 Y= -0.74157176E-11 Z= -0.70938717E-05   Total=     0.06539024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92426104E-02         XY= -0.61784819E+00         XZ= -0.54598959E+00
                YY=  0.12449592E+01         YZ= -0.67027438E-04         ZZ=  0.12448198E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3680145E-02 Y=  0.4941269E-10 Z=  0.4722869E-02  Total=      0.0059874
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200064E+02         XY= -0.18400726E-01         XZ=  0.76382013E-02
                YY= -0.10161296E+02         YZ=  0.23614341E-01         ZZ= -0.12216208E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60212742E-01 Y= -0.56605814E-11 Z= -0.65658647E-05   Total=     0.06021274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10708650E+00         XY= -0.56892796E+00         XZ= -0.50557847E+00
                YY=  0.12449644E+01         YZ= -0.62038480E-04         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7635036E-02 Y=  0.4919597E-10 Z=  0.4722447E-02  Total=      0.0089775
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239614E+02         XY= -0.38175182E-01         XZ= -0.10012567E-01
                YY= -0.10161296E+02         YZ=  0.23612235E-01         ZZ= -0.12216211E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32104103E-01 Y= -0.56691046E-11 Z= -0.47475834E-05   Total=     0.03210410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63825307E+00         XY= -0.30333981E+00         XZ= -0.27261574E+00
                YY=  0.12449566E+01         YZ= -0.44858212E-04         ZZ=  0.12448563E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8684659E-02 Y=  0.4731771E-10 Z=  0.4722117E-02  Total=      0.0098854
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250111E+02         XY= -0.43423295E-01         XZ= -0.14866638E-01
                YY= -0.10161296E+02         YZ=  0.23610582E-01         ZZ= -0.12216214E+02
  Expectation value of momentum operator [a. u.]
    X=  0.82448510E-02 Y= -0.74336857E-11 Z= -0.41099653E-05   Total=     0.00824485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14007276E+01         XY=  0.77902552E-01         XZ=  0.64267307E-01
                YY=  0.12449458E+01         YZ= -0.38833610E-04         ZZ=  0.12448566E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6427702E-02 Y=  0.4681202E-10 Z=  0.4721495E-02  Total=      0.0079755
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227542E+02         XY= -0.32138513E-01         XZ= -0.50708252E-02
                YY= -0.10161295E+02         YZ=  0.23607471E-01         ZZ= -0.12216221E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45476443E-01 Y= -0.99253442E-11 Z= -0.54833714E-05   Total=     0.04547644
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21043054E+01         XY=  0.42969011E+00         XZ=  0.37682591E+00
                YY=  0.12449459E+01         YZ= -0.51810437E-04         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1721850E-02 Y=  0.4731771E-10 Z=  0.4720606E-02  Total=      0.0050248
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180483E+02         XY= -0.86092528E-02         XZ=  0.15650890E-01
                YY= -0.10161295E+02         YZ=  0.23603028E-01         ZZ= -0.12216231E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65411671E-01 Y= -0.11648865E-10 Z= -0.69319994E-05   Total=     0.06541167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24810376E+01         XY=  0.61805072E+00         XZ=  0.54602813E+00
                YY=  0.12449559E+01         YZ= -0.65498003E-04         ZZ=  0.12448196E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3642161E-02 Y=  0.4702874E-10 Z=  0.4719847E-02  Total=      0.0059617
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126844E+02         XY=  0.18210803E-01         XZ=  0.39412561E-01
                YY= -0.10161295E+02         YZ=  0.23599233E-01         ZZ= -0.12216238E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60450076E-01 Y= -0.11450917E-10 Z= -0.64330795E-05   Total=     0.06045008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23872805E+01         XY=  0.57117045E+00         XZ=  0.50737293E+00
                YY=  0.12449611E+01         YZ= -0.60783892E-04         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7621987E-02 Y=  0.4702874E-10 Z=  0.4719437E-02  Total=      0.0089648
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087047E+02         XY=  0.38109933E-01         XZ=  0.57165555E-01
                YY= -0.10161294E+02         YZ=  0.23597184E-01         ZZ= -0.12216241E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32467464E-01 Y= -0.91600839E-11 Z= -0.46535656E-05   Total=     0.03246746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18584763E+01         XY=  0.30677308E+00         XZ=  0.27546462E+00
                YY=  0.12449536E+01         YZ= -0.43969904E-04         ZZ=  0.12448553E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8701304E-02 Y=  0.4724547E-10 Z=  0.4719117E-02  Total=      0.0098986
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076254E+02         XY=  0.43506520E-01         XZ=  0.62143144E-01
                YY= -0.10161294E+02         YZ=  0.23595583E-01         ZZ= -0.12216244E+02
  Expectation value of momentum operator [a. u.]
    X= -0.78932886E-02 Y= -0.57243320E-11 Z= -0.40132674E-05   Total=     0.00789329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10957586E+01         XY= -0.74580768E-01         XZ= -0.61500223E-01
                YY=  0.12449429E+01         YZ= -0.37919934E-04         ZZ=  0.12448557E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6467533E-02 Y=  0.4854580E-10 Z=  0.4718508E-02  Total=      0.0080058
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098593E+02         XY=  0.32337662E-01         XZ=  0.52440220E-01
                YY= -0.10161294E+02         YZ=  0.23592538E-01         ZZ= -0.12216251E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45270184E-01 Y= -0.27603368E-11 Z= -0.53500360E-05   Total=     0.04527018
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38944010E+00         XY= -0.42774125E+00         XZ= -0.37525850E+00
                YY=  0.12449430E+01         YZ= -0.50550542E-04         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1769543E-02 Y=  0.5143543E-10 Z=  0.4717635E-02  Total=      0.0050386
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145573E+02         XY=  0.88477127E-02         XZ=  0.31743348E-01
                YY= -0.10161294E+02         YZ=  0.23588172E-01         ZZ= -0.12216260E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65429204E-01 Y= -0.17328316E-11 Z= -0.67824616E-05   Total=     0.06542920
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85005937E-02         XY= -0.61821639E+00         XZ= -0.54629788E+00
                YY=  0.12449527E+01         YZ= -0.64084994E-04         ZZ=  0.12448194E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3604935E-02 Y=  0.5374713E-10 Z=  0.4716890E-02  Total=      0.0059367
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199318E+02         XY= -0.18024676E-01         XZ=  0.79295245E-02
                YY= -0.10161293E+02         YZ=  0.23584448E-01         ZZ= -0.12216268E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60685008E-01 Y= -0.31740551E-11 Z= -0.63129570E-05   Total=     0.06068501
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98156422E-01         XY= -0.57339023E+00         XZ= -0.50939291E+00
                YY=  0.12449580E+01         YZ= -0.59648831E-04         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7609606E-02 Y=  0.5425282E-10 Z=  0.4716491E-02  Total=      0.0089527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239366E+02         XY= -0.38048033E-01         XZ= -0.99336117E-02
                YY= -0.10161293E+02         YZ=  0.23582451E-01         ZZ= -0.12216271E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32830844E-01 Y= -0.63480455E-11 Z= -0.45691497E-05   Total=     0.03283084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62451465E+00         XY= -0.31020652E+00         XZ= -0.27849188E+00
                YY=  0.12449506E+01         YZ= -0.43172266E-04         ZZ=  0.12448542E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8718732E-02 Y=  0.5367489E-10 Z=  0.4716180E-02  Total=      0.0099125
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250458E+02         XY= -0.43593660E-01         XZ= -0.15041719E-01
                YY= -0.10161293E+02         YZ=  0.23580899E-01         ZZ= -0.12216274E+02
  Expectation value of momentum operator [a. u.]
    X=  0.75392944E-02 Y= -0.95522672E-11 Z= -0.39210449E-05   Total=     0.00753930
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13873898E+01         XY=  0.71236008E-01         XZ=  0.58559600E-01
                YY=  0.12449401E+01         YZ= -0.37048590E-04         ZZ=  0.12448549E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6508417E-02 Y=  0.5316921E-10 Z=  0.4715584E-02  Total=      0.0080372
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228355E+02         XY= -0.32542087E-01         XZ= -0.54451147E-02
                YY= -0.10161292E+02         YZ=  0.23577918E-01         ZZ= -0.12216280E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45060016E-01 Y= -0.10930903E-10 Z= -0.52150458E-05   Total=     0.04506002
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20964310E+01         XY=  0.42575544E+00         XZ=  0.37345596E+00
                YY=  0.12449400E+01         YZ= -0.49275138E-04         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1818615E-02 Y=  0.5360265E-10 Z=  0.4714727E-02  Total=      0.0050533
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181457E+02         XY= -0.90930756E-02         XZ=  0.15208028E-01
                YY= -0.10161292E+02         YZ=  0.23573632E-01         ZZ= -0.12216290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65442862E-01 Y= -0.94157383E-11 Z= -0.66256106E-05   Total=     0.06544286
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24816215E+01         XY=  0.61834543E+00         XZ=  0.54627994E+00
                YY=  0.12449496E+01         YZ= -0.62603032E-04         ZZ=  0.12448193E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3566078E-02 Y=  0.5490299E-10 Z=  0.4713997E-02  Total=      0.0059109
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127611E+02         XY=  0.17830389E-01         XZ=  0.39058058E-01
                YY= -0.10161292E+02         YZ=  0.23569981E-01         ZZ= -0.12216297E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60917616E-01 Y= -0.53275662E-11 Z= -0.61826533E-05   Total=     0.06091762
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23961103E+01         XY=  0.57558805E+00         XZ=  0.51115679E+00
                YY=  0.12449548E+01         YZ= -0.58417658E-04         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7595518E-02 Y=  0.5475851E-10 Z=  0.4713608E-02  Total=      0.0089392
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087318E+02         XY=  0.37977589E-01         XZ=  0.57023099E-01
                YY= -0.10161291E+02         YZ=  0.23568040E-01         ZZ= -0.12216300E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33194399E-01 Y= -0.32166249E-12 Z= -0.44763646E-05   Total=     0.03319440
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18722085E+01         XY=  0.31364162E+00         XZ=  0.28135004E+00
                YY=  0.12449477E+01         YZ= -0.42295524E-04         ZZ=  0.12448533E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8734587E-02 Y=  0.5432506E-10 Z=  0.4713308E-02  Total=      0.0099251
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075928E+02         XY=  0.43672931E-01         XZ=  0.62256195E-01
                YY= -0.10161291E+02         YZ=  0.23566539E-01         ZZ= -0.12216303E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71825989E-02 Y=  0.33316491E-11 Z= -0.38265095E-05   Total=     0.00718260
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11091840E+01         XY= -0.67865724E-01         XZ= -0.55743032E-01
                YY=  0.12449374E+01         YZ= -0.36155252E-04         ZZ=  0.12448542E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6548034E-02 Y=  0.5605884E-10 Z=  0.4712725E-02  Total=      0.0080676
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097794E+02         XY=  0.32740168E-01         XZ=  0.52755382E-01
                YY= -0.10161291E+02         YZ=  0.23563623E-01         ZZ= -0.12216309E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44845532E-01 Y=  0.38130869E-11 Z= -0.50851193E-05   Total=     0.04484553
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39745991E+00         XY= -0.42372887E+00         XZ= -0.37181389E+00
                YY=  0.12449372E+01         YZ= -0.48047387E-04         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1866790E-02 Y=  0.6032105E-10 Z=  0.4711883E-02  Total=      0.0050682
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144606E+02         XY=  0.93339460E-02         XZ=  0.32130459E-01
                YY= -0.10161291E+02         YZ=  0.23559413E-01         ZZ= -0.12216318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65452095E-01 Y=  0.66696388E-12 Z= -0.64791770E-05   Total=     0.06545210
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80626344E-02         XY= -0.61843268E+00         XZ= -0.54647592E+00
                YY=  0.12449465E+01         YZ= -0.61219350E-04         ZZ=  0.12448191E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3527810E-02 Y=  0.6479997E-10 Z=  0.4711166E-02  Total=      0.0058856
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198553E+02         XY= -0.17639054E-01         XZ=  0.82309355E-02
                YY= -0.10161290E+02         YZ=  0.23555830E-01         ZZ= -0.12216325E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61147218E-01 Y= -0.48879330E-11 Z= -0.60644920E-05   Total=     0.06114722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89416603E-01         XY= -0.57775748E+00         XZ= -0.51313037E+00
                YY=  0.12449518E+01         YZ= -0.57301191E-04         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7581877E-02 Y=  0.6747288E-10 Z=  0.4710788E-02  Total=      0.0089262
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239095E+02         XY= -0.37909385E-01         XZ= -0.98432056E-02
                YY= -0.10161290E+02         YZ=  0.23553940E-01         ZZ= -0.12216328E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33557352E-01 Y= -0.10430755E-10 Z= -0.43941041E-05   Total=     0.03355735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61078080E+00         XY= -0.31707103E+00         XZ= -0.28437352E+00
                YY=  0.12449449E+01         YZ= -0.41518360E-04         ZZ=  0.12448522E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8750951E-02 Y=  0.6682271E-10 Z=  0.4710498E-02  Total=      0.0099382
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250786E+02         XY= -0.43754756E-01         XZ= -0.15207617E-01
                YY= -0.10161290E+02         YZ=  0.23552487E-01         ZZ= -0.12216331E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68240352E-02 Y= -0.13406085E-10 Z= -0.37383818E-05   Total=     0.00682404
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13738688E+01         XY=  0.64477788E-01         XZ=  0.52765669E-01
                YY=  0.12449347E+01         YZ= -0.35322706E-04         ZZ=  0.12448534E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6588390E-02 Y=  0.6537790E-10 Z=  0.4709927E-02  Total=      0.0080988
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229161E+02         XY= -0.32941952E-01         XZ= -0.58152808E-02
                YY= -0.10161289E+02         YZ=  0.23549634E-01         ZZ= -0.12216337E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44627575E-01 Y= -0.12310177E-10 Z= -0.49557194E-05   Total=     0.04462757
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20882542E+01         XY=  0.42166947E+00         XZ=  0.36995107E+00
                YY=  0.12449344E+01         YZ= -0.46824870E-04         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1915999E-02 Y=  0.6667823E-10 Z=  0.4709100E-02  Total=      0.0050840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182437E+02         XY= -0.95799991E-02         XZ=  0.14763317E-01
                YY= -0.10161289E+02         YZ=  0.23545500E-01         ZZ= -0.12216346E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65457715E-01 Y= -0.74430472E-11 Z= -0.63269808E-05   Total=     0.06545772
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24818969E+01         XY=  0.61848577E+00         XZ=  0.54639835E+00
                YY=  0.12449435E+01         YZ= -0.59781373E-04         ZZ=  0.12448190E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3488271E-02 Y=  0.6935114E-10 Z=  0.4708398E-02  Total=      0.0058598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128395E+02         XY=  0.17441354E-01         XZ=  0.38697042E-01
                YY= -0.10161289E+02         YZ=  0.23541988E-01         ZZ= -0.12216353E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61374582E-01 Y= -0.85678021E-12 Z= -0.59363545E-05   Total=     0.06137458
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24047405E+01         XY=  0.57990576E+00         XZ=  0.51485826E+00
                YY=  0.12449487E+01         YZ= -0.56090434E-04         ZZ=  0.12448306E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7566889E-02 Y=  0.7151837E-10 Z=  0.4708031E-02  Total=      0.0089120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087610E+02         XY=  0.37834445E-01         XZ=  0.56872498E-01
                YY= -0.10161289E+02         YZ=  0.23540154E-01         ZZ= -0.12216356E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33920431E-01 Y=  0.45086987E-11 Z= -0.43020982E-05   Total=     0.03392043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18859238E+01         XY=  0.32050162E+00         XZ=  0.28723422E+00
                YY=  0.12449421E+01         YZ= -0.40648905E-04         ZZ=  0.12448514E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8766098E-02 Y=  0.7209629E-10 Z=  0.4707751E-02  Total=      0.0099502
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075619E+02         XY=  0.43830488E-01         XZ=  0.62363071E-01
                YY= -0.10161288E+02         YZ=  0.23538751E-01         ZZ= -0.12216358E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64628903E-02 Y=  0.61381122E-11 Z= -0.36453979E-05   Total=     0.00646289
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11227801E+01         XY= -0.61065464E-01         XZ= -0.49906406E-01
                YY=  0.12449320E+01         YZ= -0.34443972E-04         ZZ=  0.12448527E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6627825E-02 Y=  0.7267422E-10 Z=  0.4707193E-02  Total=      0.0081293
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097002E+02         XY=  0.33139123E-01         XZ=  0.53069161E-01
                YY= -0.10161288E+02         YZ=  0.23535961E-01         ZZ= -0.12216364E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44405416E-01 Y=  0.31097153E-11 Z= -0.48286054E-05   Total=     0.04440542
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40577218E+00         XY= -0.41957037E+00         XZ= -0.36823987E+00
                YY=  0.12449316E+01         YZ= -0.45623689E-04         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1964653E-02 Y=  0.7599729E-10 Z=  0.4706381E-02  Total=      0.0051000
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143634E+02         XY=  0.98232632E-02         XZ=  0.32521969E-01
                YY= -0.10161288E+02         YZ=  0.23531901E-01         ZZ= -0.12216373E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65458956E-01 Y= -0.34203869E-11 Z= -0.61832405E-05   Total=     0.06545896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79278170E-02         XY= -0.61849750E+00         XZ= -0.54652380E+00
                YY=  0.12449406E+01         YZ= -0.58423190E-04         ZZ=  0.12448189E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3448979E-02 Y=  0.8018726E-10 Z=  0.4705692E-02  Total=      0.0058343
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197771E+02         XY= -0.17244897E-01         XZ=  0.85413270E-02
                YY= -0.10161288E+02         YZ=  0.23528457E-01         ZZ= -0.12216380E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61598888E-01 Y= -0.10661426E-10 Z= -0.58199323E-05   Total=     0.06159889
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80876153E-01         XY= -0.58202514E+00         XZ= -0.51678605E+00
                YY=  0.12449458E+01         YZ= -0.54990485E-04         ZZ=  0.12448300E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7551997E-02 Y=  0.8199328E-10 Z=  0.4705335E-02  Total=      0.0088979
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238802E+02         XY= -0.37759988E-01         XZ= -0.97421607E-02
                YY= -0.10161287E+02         YZ=  0.23526672E-01         ZZ= -0.12216383E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34282754E-01 Y= -0.15388586E-10 Z= -0.42218350E-05   Total=     0.03428275
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59706805E+00         XY= -0.32392508E+00         XZ= -0.29025225E+00
                YY=  0.12449394E+01         YZ= -0.39890694E-04         ZZ=  0.12448504E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8781387E-02 Y=  0.8155983E-10 Z=  0.4705064E-02  Total=      0.0099624
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251096E+02         XY= -0.43906937E-01         XZ= -0.15364744E-01
                YY= -0.10161287E+02         YZ=  0.23525316E-01         ZZ= -0.12216385E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61001030E-02 Y= -0.15379283E-10 Z= -0.35611698E-05   Total=     0.00610010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13601841E+01         XY=  0.57637620E-01         XZ=  0.46895351E-01
                YY=  0.12449294E+01         YZ= -0.33648313E-04         ZZ=  0.12448519E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6667611E-02 Y=  0.7975381E-10 Z=  0.4704518E-02  Total=      0.0081602
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229959E+02         XY= -0.33338059E-01         XZ= -0.61813328E-02
                YY= -0.10161287E+02         YZ=  0.23522587E-01         ZZ= -0.12216391E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44180048E-01 Y= -0.10440216E-10 Z= -0.47045535E-05   Total=     0.04418005
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20797925E+01         XY=  0.41744095E+00         XZ=  0.36632027E+00
                YY=  0.12449289E+01         YZ= -0.44451682E-04         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2013932E-02 Y=  0.7953709E-10 Z=  0.4703721E-02  Total=      0.0051167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183422E+02         XY= -0.10069663E-01         XZ=  0.14317075E-01
                YY= -0.10161287E+02         YZ=  0.23518601E-01         ZZ= -0.12216400E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65456861E-01 Y= -0.25524003E-11 Z= -0.60354354E-05   Total=     0.06545686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24818757E+01         XY=  0.61847771E+00         XZ=  0.54638984E+00
                YY=  0.12449377E+01         YZ= -0.57026628E-04         ZZ=  0.12448189E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3408847E-02 Y=  0.8090967E-10 Z=  0.4703045E-02  Total=      0.0058085
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129195E+02         XY=  0.17044235E-01         XZ=  0.38330032E-01
                YY= -0.10161286E+02         YZ=  0.23515225E-01         ZZ= -0.12216406E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61821233E-01 Y=  0.49529014E-11 Z= -0.56936974E-05   Total=     0.06182123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24131760E+01         XY=  0.58412600E+00         XZ=  0.51848056E+00
                YY=  0.12449429E+01         YZ= -0.53797609E-04         ZZ=  0.12448296E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7536214E-02 Y=  0.8170431E-10 Z=  0.4702700E-02  Total=      0.0088831
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087922E+02         XY=  0.37681069E-01         XZ=  0.56714337E-01
                YY= -0.10161286E+02         YZ=  0.23513496E-01         ZZ= -0.12216409E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34645486E-01 Y=  0.88378779E-11 Z= -0.41304131E-05   Total=     0.03464549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18996208E+01         XY=  0.32735240E+00         XZ=  0.29311739E+00
                YY=  0.12449367E+01         YZ= -0.39026681E-04         ZZ=  0.12448496E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8795938E-02 Y=  0.8119863E-10 Z=  0.4702438E-02  Total=      0.0099740
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075326E+02         XY=  0.43979690E-01         XZ=  0.62464324E-01
                YY= -0.10161286E+02         YZ=  0.23512190E-01         ZZ= -0.12216411E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57344355E-02 Y=  0.73891043E-11 Z= -0.34697607E-05   Total=     0.00573444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11365417E+01         XY= -0.54182563E-01         XZ= -0.43992097E-01
                YY=  0.12449269E+01         YZ= -0.32784432E-04         ZZ=  0.12448513E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6706983E-02 Y=  0.8062070E-10 Z=  0.4701905E-02  Total=      0.0081909
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096216E+02         XY=  0.33534911E-01         XZ=  0.53382024E-01
                YY= -0.10161285E+02         YZ=  0.23509522E-01         ZZ= -0.12216417E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43950159E-01 Y=  0.11939794E-11 Z= -0.45806217E-05   Total=     0.04395016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41437077E+00         XY= -0.41526882E+00         XZ= -0.36453902E+00
                YY=  0.12449263E+01         YZ= -0.43280599E-04         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2063189E-02 Y=  0.8300465E-10 Z=  0.4701122E-02  Total=      0.0051339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142654E+02         XY=  0.10315941E-01         XZ=  0.32918246E-01
                YY= -0.10161285E+02         YZ=  0.23505608E-01         ZZ= -0.12216426E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65450060E-01 Y= -0.70925108E-11 Z= -0.58950409E-05   Total=     0.06545006
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80909768E-02         XY= -0.61841345E+00         XZ= -0.54644415E+00
                YY=  0.12449348E+01         YZ= -0.55700130E-04         ZZ=  0.12448188E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3368402E-02 Y=  0.8560532E-10 Z=  0.4700460E-02  Total=      0.0057828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196970E+02         XY= -0.16842011E-01         XZ=  0.88609691E-02
                YY= -0.10161285E+02         YZ=  0.23502298E-01         ZZ= -0.12216432E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62040220E-01 Y= -0.13898617E-10 Z= -0.55796763E-05   Total=     0.06204022
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72531265E-01         XY= -0.58619512E+00         XZ= -0.52036248E+00
                YY=  0.12449400E+01         YZ= -0.52720424E-04         ZZ=  0.12448290E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7519942E-02 Y=  0.8639996E-10 Z=  0.4700124E-02  Total=      0.0088680
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238487E+02         XY= -0.37599711E-01         XZ= -0.96303105E-02
                YY= -0.10161285E+02         YZ=  0.23500617E-01         ZZ= -0.12216435E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35007237E-01 Y= -0.16300222E-10 Z= -0.40525420E-05   Total=     0.03500724
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58337285E+00         XY= -0.33077046E+00         XZ= -0.29613094E+00
                YY=  0.12449340E+01         YZ= -0.38291116E-04         ZZ=  0.12448487E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8810032E-02 Y=  0.8502739E-10 Z=  0.4699872E-02  Total=      0.0099853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251388E+02         XY= -0.44050160E-01         XZ= -0.15513072E-01
                YY= -0.10161284E+02         YZ=  0.23499357E-01         ZZ= -0.12216437E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53672280E-02 Y= -0.13311510E-10 Z= -0.33895212E-05   Total=     0.00536723
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13463306E+01         XY=  0.50712954E-01         XZ=  0.40944816E-01
                YY=  0.12449244E+01         YZ= -0.32026452E-04         ZZ=  0.12448505E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6746102E-02 Y=  0.8365481E-10 Z=  0.4699350E-02  Total=      0.0082215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230749E+02         XY= -0.33730512E-01         XZ= -0.65434401E-02
                YY= -0.10161284E+02         YZ=  0.23496747E-01         ZZ= -0.12216443E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43717009E-01 Y= -0.63243197E-11 Z= -0.44619241E-05   Total=     0.04371701
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20710380E+01         XY=  0.41306587E+00         XZ=  0.36255834E+00
                YY=  0.12449237E+01         YZ= -0.42159133E-04         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2112477E-02 Y=  0.8488291E-10 Z=  0.4698581E-02  Total=      0.0051516
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184413E+02         XY= -0.10562386E-01         XZ=  0.13868871E-01
                YY= -0.10161284E+02         YZ=  0.23492904E-01         ZZ= -0.12216451E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65439716E-01 Y=  0.15002897E-11 Z= -0.57518217E-05   Total=     0.06543972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24815469E+01         XY=  0.61831571E+00         XZ=  0.54624805E+00
                YY=  0.12449320E+01         YZ= -0.54346833E-04         ZZ=  0.12448188E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3327689E-02 Y=  0.8683341E-10 Z=  0.4697933E-02  Total=      0.0057571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130012E+02         XY=  0.16638441E-01         XZ=  0.37956303E-01
                YY= -0.10161284E+02         YZ=  0.23489661E-01         ZZ= -0.12216457E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62256917E-01 Y=  0.66176197E-11 Z= -0.54558228E-05   Total=     0.06225692
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24214044E+01         XY=  0.58824262E+00         XZ=  0.52201716E+00
                YY=  0.12449372E+01         YZ= -0.51550005E-04         ZZ=  0.12448287E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7503321E-02 Y=  0.8900063E-10 Z=  0.4697607E-02  Total=      0.0088525
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088257E+02         XY=  0.37516604E-01         XZ=  0.56547618E-01
                YY= -0.10161283E+02         YZ=  0.23488035E-01         ZZ= -0.12216460E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35369007E-01 Y=  0.66490501E-11 Z= -0.39623590E-05   Total=     0.03536901
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19132890E+01         XY=  0.33418869E+00         XZ=  0.29899439E+00
                YY=  0.12449314E+01         YZ= -0.37438816E-04         ZZ=  0.12448480E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8823898E-02 Y=  0.8907287E-10 Z=  0.4697365E-02  Total=      0.0099963
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075052E+02         XY=  0.44119488E-01         XZ=  0.62558779E-01
                YY= -0.10161283E+02         YZ=  0.23486824E-01         ZZ= -0.12216462E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49975195E-02 Y=  0.14123340E-11 Z= -0.33003286E-05   Total=     0.00499752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11504633E+01         XY= -0.47219716E-01         XZ= -0.38002338E-01
                YY=  0.12449220E+01         YZ= -0.31183580E-04         ZZ=  0.12448500E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6785288E-02 Y=  0.8813374E-10 Z=  0.4696855E-02  Total=      0.0082523
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095438E+02         XY=  0.33926440E-01         XZ=  0.53692772E-01
                YY= -0.10161283E+02         YZ=  0.23484274E-01         ZZ= -0.12216468E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43479643E-01 Y= -0.70196325E-11 Z= -0.43416193E-05   Total=     0.04347964
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42325791E+00         XY= -0.41082308E+00         XZ= -0.36070963E+00
                YY=  0.12449212E+01         YZ= -0.41022421E-04         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2162203E-02 Y=  0.8827822E-10 Z=  0.4696101E-02  Total=      0.0051700
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141669E+02         XY=  0.10811014E-01         XZ=  0.33318247E-01
                YY= -0.10161283E+02         YZ=  0.23480501E-01         ZZ= -0.12216476E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65424856E-01 Y= -0.15244788E-10 Z= -0.56148309E-05   Total=     0.06542486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85625267E-02         XY= -0.61817530E+00         XZ= -0.54623120E+00
                YY=  0.12449293E+01         YZ= -0.53052596E-04         ZZ=  0.12448188E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3286212E-02 Y=  0.8762806E-10 Z=  0.4695465E-02  Total=      0.0057312
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196154E+02         XY= -0.16431063E-01         XZ=  0.91891367E-02
                YY= -0.10161282E+02         YZ=  0.23477322E-01         ZZ= -0.12216482E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62470320E-01 Y= -0.20021973E-10 Z= -0.53436885E-05   Total=     0.06247032
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64398814E-01         XY= -0.59025898E+00         XZ= -0.52385080E+00
                YY=  0.12449345E+01         YZ= -0.50490712E-04         ZZ=  0.12448282E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7485765E-02 Y=  0.8654445E-10 Z=  0.4695149E-02  Total=      0.0088364
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238150E+02         XY= -0.37428825E-01         XZ= -0.95079664E-02
                YY= -0.10161282E+02         YZ=  0.23475744E-01         ZZ= -0.12216485E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35729753E-01 Y= -0.19661249E-10 Z= -0.38857392E-05   Total=     0.03572975
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56971498E+00         XY= -0.33759724E+00         XZ= -0.30199942E+00
                YY=  0.12449289E+01         YZ= -0.36715084E-04         ZZ=  0.12448471E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8836856E-02 Y=  0.8502739E-10 Z=  0.4694916E-02  Total=      0.0100066
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251662E+02         XY= -0.44184280E-01         XZ= -0.15652489E-01
                YY= -0.10161282E+02         YZ=  0.23474577E-01         ZZ= -0.12216487E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46263837E-02 Y= -0.14706288E-10 Z= -0.32225156E-05   Total=     0.00462638
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13323267E+01         XY=  0.43712990E-01         XZ=  0.34923406E-01
                YY=  0.12449196E+01         YZ= -0.30448487E-04         ZZ=  0.12448493E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6823764E-02 Y=  0.8336585E-10 Z=  0.4694417E-02  Total=      0.0082826
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231531E+02         XY= -0.34118822E-01         XZ= -0.69011403E-02
                YY= -0.10161282E+02         YZ=  0.23472084E-01         ZZ= -0.12216492E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43239156E-01 Y= -0.76282635E-11 Z= -0.42266987E-05   Total=     0.04323916
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20620036E+01         XY=  0.40855081E+00         XZ=  0.35867199E+00
                YY=  0.12449187E+01         YZ= -0.39936583E-04         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2211494E-02 Y=  0.8401602E-10 Z=  0.4693676E-02  Total=      0.0051886
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185409E+02         XY= -0.11057474E-01         XZ=  0.13419380E-01
                YY= -0.10161281E+02         YZ=  0.23468380E-01         ZZ= -0.12216500E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65406586E-01 Y= -0.16909779E-11 Z= -0.54749717E-05   Total=     0.06540659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24809162E+01         XY=  0.61800267E+00         XZ=  0.54597600E+00
                YY=  0.12449266E+01         YZ= -0.51731003E-04         ZZ=  0.12448188E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3244942E-02 Y=  0.8582204E-10 Z=  0.4693054E-02  Total=      0.0057056
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130845E+02         XY=  0.16224710E-01         XZ=  0.37576578E-01
                YY= -0.10161281E+02         YZ=  0.23465267E-01         ZZ= -0.12216506E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62681537E-01 Y=  0.48969138E-12 Z= -0.52214762E-05   Total=     0.06268154
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24294239E+01         XY=  0.59225470E+00         XZ=  0.52546736E+00
                YY=  0.12449318E+01         YZ= -0.49335800E-04         ZZ=  0.12448280E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7468338E-02 Y=  0.8748358E-10 Z=  0.4692749E-02  Total=      0.0088203
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088612E+02         XY=  0.37341687E-01         XZ=  0.56372975E-01
                YY= -0.10161281E+02         YZ=  0.23463742E-01         ZZ= -0.12216509E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36090584E-01 Y= -0.19485555E-11 Z= -0.37964692E-05   Total=     0.03609058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19269206E+01         XY=  0.34100660E+00         XZ=  0.30486156E+00
                YY=  0.12449264E+01         YZ= -0.35871455E-04         ZZ=  0.12448465E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8850065E-02 Y=  0.8683341E-10 Z=  0.4692525E-02  Total=      0.0100172
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074795E+02         XY=  0.44250325E-01         XZ=  0.62646882E-01
                YY= -0.10161281E+02         YZ=  0.23462624E-01         ZZ= -0.12216511E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42527212E-02 Y= -0.78132261E-11 Z= -0.31355147E-05   Total=     0.00425272
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11645340E+01         XY= -0.40182392E-01         XZ= -0.31942467E-01
                YY=  0.12449173E+01         YZ= -0.29626389E-04         ZZ=  0.12448488E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6862784E-02 Y=  0.8538859E-10 Z=  0.4692038E-02  Total=      0.0083134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094668E+02         XY=  0.34313920E-01         XZ=  0.54001623E-01
                YY= -0.10161280E+02         YZ=  0.23460190E-01         ZZ= -0.12216516E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42994466E-01 Y= -0.14460397E-10 Z= -0.41102314E-05   Total=     0.04299447
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43242229E+00         XY= -0.40623883E+00         XZ= -0.35675738E+00
                YY=  0.12449163E+01         YZ= -0.38836183E-04         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2261698E-02 Y=  0.8618324E-10 Z=  0.4691311E-02  Total=      0.0052080
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140680E+02         XY=  0.11308487E-01         XZ=  0.33721972E-01
                YY= -0.10161280E+02         YZ=  0.23456553E-01         ZZ= -0.12216524E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65383851E-01 Y= -0.18999345E-10 Z= -0.53417720E-05   Total=     0.06538385
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93328633E-02         XY= -0.61778786E+00         XZ= -0.54589002E+00
                YY=  0.12449240E+01         YZ= -0.50472593E-04         ZZ=  0.12448188E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3202442E-02 Y=  0.8553307E-10 Z=  0.4690701E-02  Total=      0.0056796
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195321E+02         XY= -0.16012214E-01         XZ=  0.95256482E-02
                YY= -0.10161280E+02         YZ=  0.23453501E-01         ZZ= -0.12216530E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62889556E-01 Y= -0.19542904E-10 Z= -0.51117129E-05   Total=     0.06288956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56471841E-01         XY= -0.59422019E+00         XZ= -0.52725499E+00
                YY=  0.12449292E+01         YZ= -0.48298854E-04         ZZ=  0.12448276E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7449519E-02 Y=  0.8481067E-10 Z=  0.4690405E-02  Total=      0.0088031
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237793E+02         XY= -0.37247595E-01         XZ= -0.93754452E-02
                YY= -0.10161280E+02         YZ=  0.23452024E-01         ZZ= -0.12216532E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36450539E-01 Y= -0.15957768E-10 Z= -0.37216649E-05   Total=     0.03645054
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55608999E+00         XY= -0.34440768E+00         XZ= -0.30786060E+00
                YY=  0.12449240E+01         YZ= -0.35164774E-04         ZZ=  0.12448457E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8861925E-02 Y=  0.8538859E-10 Z=  0.4690190E-02  Total=      0.0100265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251918E+02         XY= -0.44309627E-01         XZ= -0.15783409E-01
                YY= -0.10161279E+02         YZ=  0.23450949E-01         ZZ= -0.12216534E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38774254E-02 Y= -0.98141058E-11 Z= -0.30609075E-05   Total=     0.00387743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13181696E+01         XY=  0.36636360E-01         XZ=  0.28829085E-01
                YY=  0.12449150E+01         YZ= -0.28921470E-04         ZZ=  0.12448481E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6900672E-02 Y=  0.8582204E-10 Z=  0.4689714E-02  Total=      0.0083434
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232306E+02         XY= -0.34503365E-01         XZ= -0.72549226E-02
                YY= -0.10161279E+02         YZ=  0.23448569E-01         ZZ= -0.12216539E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42746392E-01 Y= -0.36059072E-11 Z= -0.40002855E-05   Total=     0.04274639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20526877E+01         XY=  0.40389487E+00         XZ=  0.35465980E+00
                YY=  0.12449139E+01         YZ= -0.37797253E-04         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2311068E-02 Y=  0.8697789E-10 Z=  0.4689000E-02  Total=      0.0052276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186410E+02         XY= -0.11555342E-01         XZ=  0.12968055E-01
                YY= -0.10161279E+02         YZ=  0.23444999E-01         ZZ= -0.12216547E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65357396E-01 Y=  0.37387363E-12 Z= -0.52069331E-05   Total=     0.06535740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24799822E+01         XY=  0.61753790E+00         XZ=  0.54557281E+00
                YY=  0.12449215E+01         YZ= -0.49198387E-04         ZZ=  0.12448189E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3160520E-02 Y=  0.8842271E-10 Z=  0.4688403E-02  Total=      0.0056542
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131694E+02         XY=  0.15802597E-01         XZ=  0.37190277E-01
                YY= -0.10161279E+02         YZ=  0.23442011E-01         ZZ= -0.12216553E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63095052E-01 Y=  0.98767603E-12 Z= -0.49930158E-05   Total=     0.06309505
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24372337E+01         XY=  0.59616184E+00         XZ=  0.52883091E+00
                YY=  0.12449266E+01         YZ= -0.47177156E-04         ZZ=  0.12448273E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7431172E-02 Y=  0.8820598E-10 Z=  0.4688117E-02  Total=      0.0087864
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088988E+02         XY=  0.37155859E-01         XZ=  0.56189825E-01
                YY= -0.10161278E+02         YZ=  0.23440585E-01         ZZ= -0.12216555E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36810237E-01 Y= -0.13664613E-11 Z= -0.36349823E-05   Total=     0.03681024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19405160E+01         XY=  0.34780633E+00         XZ=  0.31071961E+00
                YY=  0.12449216E+01         YZ= -0.34345618E-04         ZZ=  0.12448451E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8874353E-02 Y=  0.8791702E-10 Z=  0.4687912E-02  Total=      0.0100365
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074557E+02         XY=  0.44371763E-01         XZ=  0.62728096E-01
                YY= -0.10161278E+02         YZ=  0.23439558E-01         ZZ= -0.12216557E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34999206E-02 Y= -0.50686370E-11 Z= -0.29772777E-05   Total=     0.00349992
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11787562E+01         XY= -0.33069457E-01         XZ= -0.25810607E-01
                YY=  0.12449127E+01         YZ= -0.28131241E-04         ZZ=  0.12448476E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6939398E-02 Y=  0.8835047E-10 Z=  0.4687447E-02  Total=      0.0083742
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093907E+02         XY=  0.34696987E-01         XZ=  0.54308146E-01
                YY= -0.10161278E+02         YZ=  0.23437235E-01         ZZ= -0.12216562E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42494384E-01 Y= -0.80928242E-11 Z= -0.38883347E-05   Total=     0.04249438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44186854E+00         XY= -0.40151374E+00         XZ= -0.35267918E+00
                YY=  0.12449116E+01         YZ= -0.36739508E-04         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2361624E-02 Y=  0.8827822E-10 Z=  0.4686746E-02  Total=      0.0052481
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139685E+02         XY=  0.11808120E-01         XZ=  0.34129146E-01
                YY= -0.10161278E+02         YZ=  0.23433730E-01         ZZ= -0.12216570E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65326682E-01 Y= -0.89233239E-11 Z= -0.50779303E-05   Total=     0.06532668
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10408882E-01         XY= -0.61724769E+00         XZ= -0.54541654E+00
                YY=  0.12449190E+01         YZ= -0.47979564E-04         ZZ=  0.12448189E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3117106E-02 Y=  0.8813374E-10 Z=  0.4686161E-02  Total=      0.0056282
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194473E+02         XY= -0.15585530E-01         XZ=  0.98704199E-02
                YY= -0.10161278E+02         YZ=  0.23430801E-01         ZZ= -0.12216575E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63297488E-01 Y= -0.71576742E-11 Z= -0.48860480E-05   Total=     0.06329749
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48758726E-01         XY= -0.59807458E+00         XZ= -0.53057055E+00
                YY=  0.12449241E+01         YZ= -0.46166525E-04         ZZ=  0.12448270E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7411180E-02 Y=  0.8813374E-10 Z=  0.4685885E-02  Total=      0.0087683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237414E+02         XY= -0.37055901E-01         XZ= -0.92326351E-02
                YY= -0.10161277E+02         YZ=  0.23429421E-01         ZZ= -0.12216577E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37169145E-01 Y= -0.35584497E-11 Z= -0.35626817E-05   Total=     0.03716915
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54250638E+00         XY= -0.35119753E+00         XZ= -0.31371025E+00
                YY=  0.12449193E+01         YZ= -0.33662494E-04         ZZ=  0.12448444E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8885182E-02 Y=  0.8770030E-10 Z=  0.4685688E-02  Total=      0.0100450
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252155E+02         XY= -0.44425910E-01         XZ= -0.15905556E-01
                YY= -0.10161277E+02         YZ=  0.23428436E-01         ZZ= -0.12216579E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31207226E-02 Y=  0.41326492E-12 Z= -0.29069819E-05   Total=     0.00312072
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13038664E+01         XY=  0.29486555E-01         XZ=  0.22664987E-01
                YY=  0.12449106E+01         YZ= -0.27466995E-04         ZZ=  0.12448470E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6976745E-02 Y=  0.8741134E-10 Z=  0.4685233E-02  Total=      0.0084040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233071E+02         XY= -0.34883729E-01         XZ= -0.76044107E-02
                YY= -0.10161277E+02         YZ=  0.23426165E-01         ZZ= -0.12216584E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42238927E-01 Y=  0.33215432E-11 Z= -0.37848860E-05   Total=     0.04223893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20430942E+01         XY=  0.39910002E+00         XZ=  0.35052318E+00
                YY=  0.12449094E+01         YZ= -0.35761962E-04         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2411107E-02 Y=  0.8827822E-10 Z=  0.4684545E-02  Total=      0.0052686
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187415E+02         XY= -0.12055539E-01         XZ=  0.12515289E-01
                YY= -0.10161277E+02         YZ=  0.23422723E-01         ZZ= -0.12216592E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65292147E-01 Y=  0.43805112E-11 Z= -0.49498139E-05   Total=     0.06529215
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24787450E+01         XY=  0.61692139E+00         XZ=  0.54503784E+00
                YY=  0.12449166E+01         YZ= -0.46768927E-04         ZZ=  0.12448190E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3074500E-02 Y=  0.8957856E-10 Z=  0.4683971E-02  Total=      0.0056029
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132559E+02         XY=  0.15372498E-01         XZ=  0.36797719E-01
                YY= -0.10161276E+02         YZ=  0.23419854E-01         ZZ= -0.12216597E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63497245E-01 Y=  0.37066147E-11 Z= -0.47723053E-05   Total=     0.06349725
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24448298E+01         XY=  0.59996202E+00         XZ=  0.53210529E+00
                YY=  0.12449216E+01         YZ= -0.45091718E-04         ZZ=  0.12448268E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7391878E-02 Y=  0.9174578E-10 Z=  0.4683705E-02  Total=      0.0087508
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089386E+02         XY=  0.36959386E-01         XZ=  0.55998344E-01
                YY= -0.10161276E+02         YZ=  0.23418524E-01         ZZ= -0.12216599E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37527585E-01 Y=  0.21248746E-11 Z= -0.34793342E-05   Total=     0.03752759
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19540681E+01         XY=  0.35458429E+00         XZ=  0.31656464E+00
                YY=  0.12449170E+01         YZ= -0.32874925E-04         ZZ=  0.12448438E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8896779E-02 Y=  0.9326284E-10 Z=  0.4683517E-02  Total=      0.0100543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074338E+02         XY=  0.44483891E-01         XZ=  0.62802418E-01
                YY= -0.10161276E+02         YZ=  0.23417585E-01         ZZ= -0.12216601E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27395659E-02 Y=  0.67278707E-12 Z= -0.28266274E-05   Total=     0.00273957
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11931213E+01         XY= -0.25885147E-01         XZ= -0.19611066E-01
                YY=  0.12449085E+01         YZ= -0.26707752E-04         ZZ=  0.12448466E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7015111E-02 Y=  0.9521334E-10 Z=  0.4683074E-02  Total=      0.0084346
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093155E+02         XY=  0.35075552E-01         XZ=  0.54612162E-01
                YY= -0.10161276E+02         YZ=  0.23415369E-01         ZZ= -0.12216606E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41979796E-01 Y=  0.76858286E-13 Z= -0.36766987E-05   Total=     0.04197980
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45158916E+00         XY= -0.39665158E+00         XZ= -0.34847873E+00
                YY=  0.12449072E+01         YZ= -0.34739766E-04         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2461939E-02 Y=  0.9803073E-10 Z=  0.4682398E-02  Total=      0.0052902
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138687E+02         XY=  0.12309692E-01         XZ=  0.34539465E-01
                YY= -0.10161276E+02         YZ=  0.23411990E-01         ZZ= -0.12216613E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65253589E-01 Y=  0.45908532E-12 Z= -0.48239205E-05   Total=     0.06525359
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11786064E-01         XY= -0.61655706E+00         XZ= -0.54481294E+00
                YY=  0.12449142E+01         YZ= -0.45579438E-04         ZZ=  0.12448191E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3030257E-02 Y=  0.9868090E-10 Z=  0.4681836E-02  Total=      0.0055769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193609E+02         XY= -0.15151286E-01         XZ=  0.10223100E-01
                YY= -0.10161275E+02         YZ=  0.23409180E-01         ZZ= -0.12216619E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63694130E-01 Y=  0.13932221E-11 Z= -0.46669170E-05   Total=     0.06369413
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41259160E-01         XY= -0.60182231E+00         XZ= -0.53379765E+00
                YY=  0.12449192E+01         YZ= -0.44095962E-04         ZZ=  0.12448265E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7370796E-02 Y=  0.1000535E-09 Z=  0.4681579E-02  Total=      0.0087319
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237015E+02         XY= -0.36853981E-01         XZ= -0.90798563E-02
                YY= -0.10161275E+02         YZ=  0.23407894E-01         ZZ= -0.12216621E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37885367E-01 Y=  0.22456484E-11 Z= -0.34082138E-05   Total=     0.03788537
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52896803E+00         XY= -0.35796484E+00         XZ= -0.31954661E+00
                YY=  0.12449148E+01         YZ= -0.32202933E-04         ZZ=  0.12448431E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8906652E-02 Y=  0.1022207E-09 Z=  0.4681400E-02  Total=      0.0100620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252374E+02         XY= -0.44533261E-01         XZ= -0.16019153E-01
                YY= -0.10161275E+02         YZ=  0.23406996E-01         ZZ= -0.12216622E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23566312E-02 Y=  0.25865008E-11 Z= -0.27591734E-05   Total=     0.00235663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12894238E+01         XY=  0.22266938E-01         XZ=  0.16434190E-01
                YY=  0.12449064E+01         YZ= -0.26070387E-04         ZZ=  0.12448460E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7051981E-02 Y=  0.1025819E-09 Z=  0.4680967E-02  Total=      0.0084642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233828E+02         XY= -0.35259908E-01         XZ= -0.79497016E-02
                YY= -0.10161275E+02         YZ=  0.23404831E-01         ZZ= -0.12216627E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41717152E-01 Y=  0.24398510E-11 Z= -0.35781494E-05   Total=     0.04171715
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20332305E+01         XY=  0.39416996E+00         XZ=  0.34626553E+00
                YY=  0.12449050E+01         YZ= -0.33808590E-04         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2511587E-02 Y=  0.1033043E-09 Z=  0.4680303E-02  Total=      0.0053116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188424E+02         XY= -0.12557936E-01         XZ=  0.12061098E-01
                YY= -0.10161274E+02         YZ=  0.23401512E-01         ZZ= -0.12216634E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65211141E-01 Y=  0.22405369E-11 Z= -0.47008579E-05   Total=     0.06521114
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24772102E+01         XY=  0.61615599E+00         XZ=  0.54437380E+00
                YY=  0.12449119E+01         YZ= -0.44416649E-04         ZZ=  0.12448192E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2986923E-02 Y=  0.1047491E-09 Z=  0.4679752E-02  Total=      0.0055517
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133440E+02         XY=  0.14934614E-01         XZ=  0.36398990E-01
                YY= -0.10161274E+02         YZ=  0.23398759E-01         ZZ= -0.12216639E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63888245E-01 Y=  0.25312480E-11 Z= -0.45564191E-05   Total=     0.06388825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24522146E+01         XY=  0.60365643E+00         XZ=  0.53529181E+00
                YY=  0.12449169E+01         YZ= -0.43051898E-04         ZZ=  0.12448264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7350494E-02 Y=  0.1058327E-09 Z=  0.4679505E-02  Total=      0.0087136
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089805E+02         XY=  0.36752468E-01         XZ=  0.55798628E-01
                YY= -0.10161274E+02         YZ=  0.23397522E-01         ZZ= -0.12216641E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38242564E-01 Y=  0.35797842E-11 Z= -0.33264785E-05   Total=     0.03824256
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19675756E+01         XY=  0.36133986E+00         XZ=  0.32239646E+00
                YY=  0.12449126E+01         YZ= -0.31430635E-04         ZZ=  0.12448427E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8917370E-02 Y=  0.1066274E-09 Z=  0.4679334E-02  Total=      0.0100705
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074137E+02         XY=  0.44586850E-01         XZ=  0.62869906E-01
                YY= -0.10161274E+02         YZ=  0.23396669E-01         ZZ= -0.12216643E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19718626E-02 Y=  0.51468920E-11 Z= -0.26804654E-05   Total=     0.00197186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12076254E+01         XY= -0.18631401E-01         XZ= -0.13345147E-01
                YY=  0.12449044E+01         YZ= -0.25326683E-04         ZZ=  0.12448456E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7089935E-02 Y=  0.1064107E-09 Z=  0.4678912E-02  Total=      0.0084947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092411E+02         XY=  0.35449672E-01         XZ=  0.54913676E-01
                YY= -0.10161274E+02         YZ=  0.23394558E-01         ZZ= -0.12216647E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41450942E-01 Y=  0.65511540E-11 Z= -0.34723688E-05   Total=     0.04145094
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46157953E+00         XY= -0.39165464E+00         XZ= -0.34415760E+00
                YY=  0.12449029E+01         YZ= -0.32809074E-04         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2562639E-02 Y=  0.1076388E-09 Z=  0.4678260E-02  Total=      0.0053342
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137684E+02         XY=  0.12813193E-01         XZ=  0.34952894E-01
                YY= -0.10161273E+02         YZ=  0.23391300E-01         ZZ= -0.12216654E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65164739E-01 Y=  0.70198457E-11 Z= -0.45770983E-05   Total=     0.06516474
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13461182E-01         XY= -0.61571755E+00         XZ= -0.54408025E+00
                YY=  0.12449096E+01         YZ= -0.43247251E-04         ZZ=  0.12448193E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2941901E-02 Y=  0.1094448E-09 Z=  0.4677721E-02  Total=      0.0055259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192730E+02         XY= -0.14709508E-01         XZ=  0.10583652E-01
                YY= -0.10161273E+02         YZ=  0.23388604E-01         ZZ= -0.12216660E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64079506E-01 Y=  0.61493194E-11 Z= -0.44519444E-05   Total=     0.06407951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33972665E-01         XY= -0.60546358E+00         XZ= -0.53693622E+00
                YY=  0.12449146E+01         YZ= -0.42064726E-04         ZZ=  0.12448261E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7328363E-02 Y=  0.1100949E-09 Z=  0.4677483E-02  Total=      0.0086939
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236595E+02         XY= -0.36641815E-01         XZ= -0.89170930E-02
                YY= -0.10161273E+02         YZ=  0.23387412E-01         ZZ= -0.12216662E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38599079E-01 Y=  0.42216845E-11 Z= -0.32559960E-05   Total=     0.03859908
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51547726E+00         XY= -0.36470844E+00         XZ= -0.32536859E+00
                YY=  0.12449104E+01         YZ= -0.30764667E-04         ZZ=  0.12448420E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8926313E-02 Y=  0.1103839E-09 Z=  0.4677320E-02  Total=      0.0100775
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252576E+02         XY= -0.44631567E-01         XZ= -0.16124105E-01
                YY= -0.10161273E+02         YZ=  0.23386599E-01         ZZ= -0.12216663E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15853560E-02 Y=  0.21802525E-11 Z= -0.26153107E-05   Total=     0.00158536
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12748455E+01         XY=  0.14979444E-01         XZ=  0.10138255E-01
                YY=  0.12449024E+01         YZ= -0.24711085E-04         ZZ=  0.12448451E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7126339E-02 Y=  0.1106006E-09 Z=  0.4676908E-02  Total=      0.0085240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234576E+02         XY= -0.35631697E-01         XZ= -0.82906248E-02
                YY= -0.10161273E+02         YZ=  0.23384536E-01         ZZ= -0.12216667E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41181240E-01 Y=  0.12335907E-11 Z= -0.33782004E-05   Total=     0.04118124
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20230998E+01         XY=  0.38910633E+00         XZ=  0.34188801E+00
                YY=  0.12449009E+01         YZ= -0.31919356E-04         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2612455E-02 Y=  0.1116120E-09 Z=  0.4676268E-02  Total=      0.0053565
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189438E+02         XY= -0.13062276E-01         XZ=  0.11605686E-01
                YY= -0.10161272E+02         YZ=  0.23381336E-01         ZZ= -0.12216674E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65114417E-01 Y=  0.22557164E-11 Z= -0.44586858E-05   Total=     0.06511442
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24753785E+01         XY=  0.61524207E+00         XZ=  0.54358071E+00
                YY=  0.12449074E+01         YZ= -0.42128455E-04         ZZ=  0.12448194E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2897836E-02 Y=  0.1132735E-09 Z=  0.4675740E-02  Total=      0.0055009
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134335E+02         XY=  0.14489179E-01         XZ=  0.35994261E-01
                YY= -0.10161272E+02         YZ=  0.23378696E-01         ZZ= -0.12216680E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64267903E-01 Y=  0.52732468E-11 Z= -0.43444516E-05   Total=     0.06426790
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24593853E+01         XY=  0.60724368E+00         XZ=  0.53838903E+00
                YY=  0.12449123E+01         YZ= -0.41049074E-04         ZZ=  0.12448260E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7307048E-02 Y=  0.1155130E-09 Z=  0.4675510E-02  Total=      0.0086749
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090243E+02         XY=  0.36535240E-01         XZ=  0.55590754E-01
                YY= -0.10161272E+02         YZ=  0.23377550E-01         ZZ= -0.12216681E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38954866E-01 Y=  0.93175505E-11 Z= -0.31758168E-05   Total=     0.03895487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19810327E+01         XY=  0.36807014E+00         XZ=  0.32821249E+00
                YY=  0.12449083E+01         YZ= -0.30007041E-04         ZZ=  0.12448416E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8936126E-02 Y=  0.1176080E-09 Z=  0.4675357E-02  Total=      0.0100853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073953E+02         XY=  0.44680630E-01         XZ=  0.62930516E-01
                YY= -0.10161272E+02         YZ=  0.23376783E-01         ZZ= -0.12216683E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11971724E-02 Y=  0.12762536E-10 Z= -0.25384578E-05   Total=     0.00119718
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12222617E+01         XY= -0.11311639E-01         XZ= -0.70156233E-02
                YY=  0.12449004E+01         YZ= -0.23984842E-04         ZZ=  0.12448447E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7163840E-02 Y=  0.1178969E-09 Z=  0.4674955E-02  Total=      0.0085543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091677E+02         XY=  0.35819199E-01         XZ=  0.55212535E-01
                YY= -0.10161272E+02         YZ=  0.23374772E-01         ZZ= -0.12216687E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40908098E-01 Y=  0.14029169E-10 Z= -0.32754388E-05   Total=     0.04090810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47183442E+00         XY= -0.38652551E+00         XZ= -0.33971764E+00
                YY=  0.12448989E+01         YZ= -0.30948293E-04         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2663681E-02 Y=  0.1190528E-09 Z=  0.4674327E-02  Total=      0.0053800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136678E+02         XY=  0.13318404E-01         XZ=  0.35369238E-01
                YY= -0.10161271E+02         YZ=  0.23371632E-01         ZZ= -0.12216694E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65060199E-01 Y=  0.12347751E-10 Z= -0.43381276E-05   Total=     0.06506020
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15432963E-01         XY= -0.61472979E+00         XZ= -0.54321847E+00
                YY=  0.12449052E+01         YZ= -0.40989261E-04         ZZ=  0.12448196E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2852077E-02 Y=  0.1211478E-09 Z=  0.4673810E-02  Total=      0.0054753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191836E+02         XY= -0.14260389E-01         XZ=  0.10951930E-01
                YY= -0.10161271E+02         YZ=  0.23369046E-01         ZZ= -0.12216699E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64453425E-01 Y=  0.82089508E-11 Z= -0.42422482E-05   Total=     0.06445343
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26902819E-01         XY= -0.60899661E+00         XZ= -0.53998420E+00
                YY=  0.12449101E+01         YZ= -0.40083367E-04         ZZ=  0.12448258E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7283895E-02 Y=  0.1217979E-09 Z=  0.4673589E-02  Total=      0.0086543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236155E+02         XY= -0.36419475E-01         XZ= -0.87443702E-02
                YY= -0.10161271E+02         YZ=  0.23367943E-01         ZZ= -0.12216701E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39309887E-01 Y=  0.32576572E-11 Z= -0.31073002E-05   Total=     0.03930989
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50204149E+00         XY= -0.37142460E+00         XZ= -0.33117259E+00
                YY=  0.12449063E+01         YZ= -0.29359703E-04         ZZ=  0.12448410E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8944146E-02 Y=  0.1213645E-09 Z=  0.4673443E-02  Total=      0.0100915
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252758E+02         XY= -0.44720731E-01         XZ= -0.16220278E-01
                YY= -0.10161271E+02         YZ=  0.23367215E-01         ZZ= -0.12216702E+02
  Expectation value of momentum operator [a. u.]
    X=  0.80735523E-03 Y= -0.37078199E-12 Z= -0.24766393E-05   Total=     0.00080736
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12601403E+01         XY=  0.76284014E-02         XZ=  0.37810310E-02
                YY=  0.12448985E+01         YZ= -0.23400852E-04         ZZ=  0.12448442E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7199768E-02 Y=  0.1202086E-09 Z=  0.4673051E-02  Total=      0.0085834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235315E+02         XY= -0.35998840E-01         XZ= -0.86269140E-02
                YY= -0.10161271E+02         YZ=  0.23365251E-01         ZZ= -0.12216706E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40631533E-01 Y= -0.99804506E-12 Z= -0.31863464E-05   Total=     0.04063153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20127085E+01         XY=  0.38391235E+00         XZ=  0.33739322E+00
                YY=  0.12448969E+01         YZ= -0.30106618E-04         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2713646E-02 Y=  0.1199197E-09 Z=  0.4672433E-02  Total=      0.0054033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190454E+02         XY= -0.13568230E-01         XZ=  0.11149365E-01
                YY= -0.10161270E+02         YZ=  0.23362165E-01         ZZ= -0.12216713E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65002047E-01 Y=  0.17923690E-11 Z= -0.42248351E-05   Total=     0.06500205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24732514E+01         XY=  0.61418033E+00         XZ=  0.54265868E+00
                YY=  0.12449031E+01         YZ= -0.39918890E-04         ZZ=  0.12448197E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2807294E-02 Y=  0.1222314E-09 Z=  0.4671927E-02  Total=      0.0054505
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135245E+02         XY=  0.14036468E-01         XZ=  0.35583773E-01
                YY= -0.10161270E+02         YZ=  0.23359633E-01         ZZ= -0.12216718E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64635962E-01 Y=  0.68776845E-11 Z= -0.41381371E-05   Total=     0.06463596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24663369E+01         XY=  0.61072133E+00         XZ=  0.54139416E+00
                YY=  0.12449079E+01         YZ= -0.39099670E-04         ZZ=  0.12448257E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7261560E-02 Y=  0.1252655E-09 Z=  0.4671715E-02  Total=      0.0086345
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090702E+02         XY=  0.36307800E-01         XZ=  0.55374784E-01
                YY= -0.10161270E+02         YZ=  0.23358575E-01         ZZ= -0.12216719E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39663961E-01 Y=  0.12010256E-10 Z= -0.30290188E-05   Total=     0.03966396
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19944293E+01         XY=  0.37477011E+00         XZ=  0.33400769E+00
                YY=  0.12449043E+01         YZ= -0.28619978E-04         ZZ=  0.12448407E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8953016E-02 Y=  0.1269993E-09 Z=  0.4671579E-02  Total=      0.0100985
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073789E+02         XY=  0.44765076E-01         XZ=  0.62984062E-01
                YY= -0.10161270E+02         YZ=  0.23357891E-01         ZZ= -0.12216720E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41613838E-03 Y=  0.14772954E-10 Z= -0.24019540E-05   Total=     0.00041615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12370181E+01         XY= -0.39319378E-02         XZ= -0.62834065E-03
                YY=  0.12448967E+01         YZ= -0.22695051E-04         ZZ=  0.12448439E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7236747E-02 Y=  0.1274327E-09 Z=  0.4671196E-02  Total=      0.0086134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090952E+02         XY=  0.36183732E-01         XZ=  0.55508323E-01
                YY= -0.10161270E+02         YZ=  0.23355978E-01         ZZ= -0.12216725E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40351809E-01 Y=  0.13663254E-10 Z= -0.30868713E-05   Total=     0.04035181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48234356E+00         XY= -0.38126934E+00         XZ= -0.33516366E+00
                YY=  0.12448950E+01         YZ= -0.29166591E-04         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2764952E-02 Y=  0.1296722E-09 Z=  0.4670590E-02  Total=      0.0054276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135670E+02         XY=  0.13824760E-01         XZ=  0.35787934E-01
                YY= -0.10161269E+02         YZ=  0.23352950E-01         ZZ= -0.12216731E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64940232E-01 Y=  0.88172342E-11 Z= -0.41076487E-05   Total=     0.06494023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17696450E-01         XY= -0.61359627E+00         XZ= -0.54222981E+00
                YY=  0.12449010E+01         YZ= -0.38811580E-04         ZZ=  0.12448199E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2760903E-02 Y=  0.1316949E-09 Z=  0.4670094E-02  Total=      0.0054252
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190929E+02         XY= -0.13804518E-01         XZ=  0.11327354E-01
                YY= -0.10161269E+02         YZ=  0.23350470E-01         ZZ= -0.12216736E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64815779E-01 Y=  0.20265233E-11 Z= -0.40382037E-05   Total=     0.06481578
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20051700E-01         XY= -0.61242036E+00         XZ= -0.54294047E+00
                YY=  0.12449058E+01         YZ= -0.38155477E-04         ZZ=  0.12448256E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7237485E-02 Y=  0.1317672E-09 Z=  0.4669891E-02  Total=      0.0086133
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235695E+02         XY= -0.36187427E-01         XZ= -0.85621430E-02
                YY= -0.10161269E+02         YZ=  0.23349455E-01         ZZ= -0.12216738E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40017345E-01 Y= -0.39854089E-11 Z= -0.29623160E-05   Total=     0.04001735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48866918E+00         XY= -0.37810912E+00         XZ= -0.33695451E+00
                YY=  0.12449023E+01         YZ= -0.27989862E-04         ZZ=  0.12448401E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8960197E-02 Y=  0.1306113E-09 Z=  0.4669762E-02  Total=      0.0101040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252923E+02         XY= -0.44800988E-01         XZ= -0.16307904E-01
                YY= -0.10161269E+02         YZ=  0.23348808E-01         ZZ= -0.12216739E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23263393E-04 Y= -0.67290297E-11 Z= -0.23434123E-05   Total=     0.00002338
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12453201E+01         XY=  0.21980714E-03         XZ= -0.26316821E-02
                YY=  0.12448948E+01         YZ= -0.22142093E-04         ZZ=  0.12448434E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7272263E-02 Y=  0.1280106E-09 Z=  0.4669388E-02  Total=      0.0086423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236044E+02         XY= -0.36361315E-01         XZ= -0.89585487E-02
                YY= -0.10161269E+02         YZ=  0.23346940E-01         ZZ= -0.12216743E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40068654E-01 Y= -0.50449887E-11 Z= -0.30033057E-05   Total=     0.04006865
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20020685E+01         XY=  0.37859391E+00         XZ=  0.33278689E+00
                YY=  0.12448932E+01         YZ= -0.28377167E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2815113E-02 Y=  0.1277939E-09 Z=  0.4668793E-02  Total=      0.0054518
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191472E+02         XY= -0.14075567E-01         XZ=  0.10692366E-01
                YY= -0.10161268E+02         YZ=  0.23343963E-01         ZZ= -0.12216749E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64874459E-01 Y=  0.35931901E-12 Z= -0.40007678E-05   Total=     0.06487446
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24708369E+01         XY=  0.61297480E+00         XZ=  0.54161181E+00
                YY=  0.12448990E+01         YZ= -0.37801773E-04         ZZ=  0.12448200E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2715364E-02 Y=  0.1298167E-09 Z=  0.4668307E-02  Total=      0.0054006
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136168E+02         XY=  0.13576818E-01         XZ=  0.35167871E-01
                YY= -0.10161268E+02         YZ=  0.23341534E-01         ZZ= -0.12216754E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64992555E-01 Y=  0.71842482E-11 Z= -0.39395959E-05   Total=     0.06499255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24730720E+01         XY=  0.61409065E+00         XZ=  0.54430885E+00
                YY=  0.12449037E+01         YZ= -0.37223726E-04         ZZ=  0.12448255E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7214095E-02 Y=  0.1306113E-09 Z=  0.4668113E-02  Total=      0.0085927
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091181E+02         XY=  0.36070470E-01         XZ=  0.55151065E-01
                YY= -0.10161268E+02         YZ=  0.23340561E-01         ZZ= -0.12216755E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40369700E-01 Y=  0.12515996E-10 Z= -0.28885275E-05   Total=     0.04036970
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20077626E+01         XY=  0.38143838E+00         XZ=  0.33978129E+00
                YY=  0.12449004E+01         YZ= -0.27292524E-04         ZZ=  0.12448398E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8968082E-02 Y=  0.1310448E-09 Z=  0.4667992E-02  Total=      0.0101102
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073642E+02         XY=  0.44840407E-01         XZ=  0.63030815E-01
                YY= -0.10161268E+02         YZ=  0.23339956E-01         ZZ= -0.12216756E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37091892E-03 Y=  0.14084821E-10 Z= -0.22734981E-05   Total=     0.00037093
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12518884E+01         XY=  0.35046760E-02         XZ=  0.58143787E-02
                YY=  0.12448931E+01         YZ= -0.21481325E-04         ZZ=  0.12448431E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7308670E-02 Y=  0.1322729E-09 Z=  0.4667628E-02  Total=      0.0086720
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090236E+02         XY=  0.36543347E-01         XZ=  0.55801194E-01
                YY= -0.10161268E+02         YZ=  0.23338138E-01         ZZ= -0.12216760E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39782422E-01 Y=  0.11253506E-10 Z= -0.29093928E-05   Total=     0.03978242
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49310042E+00         XY= -0.37588941E+00         XZ= -0.33049837E+00
                YY=  0.12448914E+01         YZ= -0.27489682E-04         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2866444E-02 Y=  0.1345846E-09 Z=  0.4667044E-02  Total=      0.0054770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134659E+02         XY=  0.14332217E-01         XZ=  0.36209029E-01
                YY= -0.10161268E+02         YZ=  0.23335215E-01         ZZ= -0.12216767E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64805090E-01 Y=  0.53001103E-11 Z= -0.38887393E-05   Total=     0.06480509
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20246915E-01         XY= -0.61231936E+00         XZ= -0.54111644E+00
                YY=  0.12448970E+01         YZ= -0.36743216E-04         ZZ=  0.12448202E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2668400E-02 Y=  0.1372575E-09 Z=  0.4666568E-02  Total=      0.0053756
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190007E+02         XY= -0.13342004E-01         XZ=  0.11709906E-01
                YY= -0.10161267E+02         YZ=  0.23332836E-01         ZZ= -0.12216772E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65166681E-01 Y= -0.11327071E-11 Z= -0.38431458E-05   Total=     0.06516668
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13417195E-01         XY= -0.61573590E+00         XZ= -0.54580632E+00
                YY=  0.12449017E+01         YZ= -0.36312473E-04         ZZ=  0.12448254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7189158E-02 Y=  0.1382688E-09 Z=  0.4666381E-02  Total=      0.0085708
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235216E+02         XY= -0.35945793E-01         XZ= -0.83704646E-02
                YY= -0.10161267E+02         YZ=  0.23331904E-01         ZZ= -0.12216773E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40721476E-01 Y= -0.51686575E-11 Z= -0.28242398E-05   Total=     0.04072148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47535994E+00         XY= -0.38476219E+00         XZ= -0.34271520E+00
                YY=  0.12448985E+01         YZ= -0.26685240E-04         ZZ=  0.12448393E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8974491E-02 Y=  0.1402916E-09 Z=  0.4666268E-02  Total=      0.0101151
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253069E+02         XY= -0.44872458E-01         XZ= -0.16387069E-01
                YY= -0.10161267E+02         YZ=  0.23331336E-01         ZZ= -0.12216774E+02
  Expectation value of momentum operator [a. u.]
    X= -0.76695658E-03 Y= -0.49406735E-11 Z= -0.22182436E-05   Total=     0.00076696
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12303843E+01         XY= -0.72466895E-02         XZ= -0.91011466E-02
                YY=  0.12448914E+01         YZ= -0.20959404E-04         ZZ=  0.12448426E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7343853E-02 Y=  0.1414474E-09 Z=  0.4665912E-02  Total=      0.0087007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236763E+02         XY= -0.36719265E-01         XZ= -0.92856807E-02
                YY= -0.10161267E+02         YZ=  0.23329560E-01         ZZ= -0.12216778E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39492437E-01 Y= -0.37578317E-12 Z= -0.28308813E-05   Total=     0.03949244
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19911767E+01         XY=  0.37314945E+00         XZ=  0.32806654E+00
                YY=  0.12448896E+01         YZ= -0.26747953E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2916904E-02 Y=  0.1410862E-09 Z=  0.4665338E-02  Total=      0.0055022
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192494E+02         XY= -0.14584520E-01         XZ=  0.10234408E-01
                YY= -0.10161267E+02         YZ=  0.23326687E-01         ZZ= -0.12216784E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64731305E-01 Y=  0.67887965E-11 Z= -0.37874590E-05   Total=     0.06473131
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24681284E+01         XY=  0.61162220E+00         XZ=  0.54043612E+00
                YY=  0.12448951E+01         YZ= -0.35786242E-04         ZZ=  0.12448203E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2621967E-02 Y=  0.1432535E-09 Z=  0.4664871E-02  Total=      0.0053512
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137106E+02         XY=  0.13109833E-01         XZ=  0.34746089E-01
                YY= -0.10161266E+02         YZ=  0.23324355E-01         ZZ= -0.12216788E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65337189E-01 Y=  0.13764172E-10 Z= -0.37490233E-05   Total=     0.06533719
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24795813E+01         XY=  0.61734696E+00         XZ=  0.54712807E+00
                YY=  0.12448998E+01         YZ= -0.35423019E-04         ZZ=  0.12448254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7164532E-02 Y=  0.1447705E-09 Z=  0.4664693E-02  Total=      0.0085493
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091681E+02         XY=  0.35822657E-01         XZ=  0.54918930E-01
                YY= -0.10161266E+02         YZ=  0.23323464E-01         ZZ= -0.12216790E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41071571E-01 Y=  0.17893238E-10 Z= -0.27538771E-05   Total=     0.04107157
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20210230E+01         XY=  0.38807011E+00         XZ=  0.34552849E+00
                YY=  0.12448967E+01         YZ= -0.26020215E-04         ZZ=  0.12448389E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8981172E-02 Y=  0.1469377E-09 Z=  0.4664588E-02  Total=      0.0101203
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073515E+02         XY=  0.44905856E-01         XZ=  0.63069947E-01
                YY= -0.10161266E+02         YZ=  0.23322936E-01         ZZ= -0.12216790E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11636394E-02 Y=  0.17768546E-10 Z= -0.21522357E-05   Total=     0.00116364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12668659E+01         XY=  0.10994799E-01         XZ=  0.12309500E-01
                YY=  0.12448897E+01         YZ= -0.20335529E-04         ZZ=  0.12448423E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7379441E-02 Y=  0.1488160E-09 Z=  0.4664242E-02  Total=      0.0087299
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089532E+02         XY=  0.36897203E-01         XZ=  0.56090265E-01
                YY= -0.10161266E+02         YZ=  0.23321207E-01         ZZ= -0.12216794E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39199986E-01 Y=  0.13776903E-10 Z= -0.27421603E-05   Total=     0.03919999
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50410402E+00         XY= -0.37038619E+00         XZ= -0.32572170E+00
                YY=  0.12448879E+01         YZ= -0.25909541E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2968001E-02 Y=  0.1511277E-09 Z=  0.4663678E-02  Total=      0.0055280
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133647E+02         XY=  0.14840002E-01         XZ=  0.36631735E-01
                YY= -0.10161266E+02         YZ=  0.23318386E-01         ZZ= -0.12216800E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64654434E-01 Y=  0.78810935E-11 Z= -0.36808516E-05   Total=     0.06465443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23090731E-01         XY= -0.61089587E+00         XZ= -0.53987461E+00
                YY=  0.12448932E+01         YZ= -0.34778937E-04         ZZ=  0.12448205E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2574679E-02 Y=  0.1548842E-09 Z=  0.4663221E-02  Total=      0.0053268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189074E+02         XY= -0.12873398E-01         XZ=  0.12099038E-01
                YY= -0.10161266E+02         YZ=  0.23316101E-01         ZZ= -0.12216805E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65505432E-01 Y=  0.27425556E-11 Z= -0.36568001E-05   Total=     0.06550543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70124815E-02         XY= -0.61893664E+00         XZ= -0.54857474E+00
                YY=  0.12448978E+01         YZ= -0.34551726E-04         ZZ=  0.12448253E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7138957E-02 Y=  0.1566180E-09 Z=  0.4663050E-02  Total=      0.0085269
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234717E+02         XY= -0.35694786E-01         XZ= -0.81695281E-02
                YY= -0.10161265E+02         YZ=  0.23315249E-01         ZZ= -0.12216806E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41421352E-01 Y=  0.58943187E-12 Z= -0.26928204E-05   Total=     0.04142135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46213125E+00         XY= -0.39137506E+00         XZ= -0.34844564E+00
                YY=  0.12448949E+01         YZ= -0.25443456E-04         ZZ=  0.12448385E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8986992E-02 Y=  0.1571237E-09 Z=  0.4662952E-02  Total=      0.0101247
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253198E+02         XY= -0.44934964E-01         XZ= -0.16457570E-01
                YY= -0.10161265E+02         YZ=  0.23314757E-01         ZZ= -0.12216807E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15623457E-02 Y=  0.22960604E-11 Z= -0.21007995E-05   Total=     0.00156235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12153510E+01         XY= -0.14762027E-01         XZ= -0.15618185E-01
                YY=  0.12448880E+01         YZ= -0.19849655E-04         ZZ=  0.12448418E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7414433E-02 Y=  0.1573404E-09 Z=  0.4662614E-02  Total=      0.0087586
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237473E+02         XY= -0.37072165E-01         XZ= -0.96077556E-02
                YY= -0.10161265E+02         YZ=  0.23313068E-01         ZZ= -0.12216811E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38903676E-01 Y=  0.70798919E-11 Z= -0.26688448E-05   Total=     0.03890368
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19800480E+01         XY=  0.36758647E+00         XZ=  0.32323971E+00
                YY=  0.12448862E+01         YZ= -0.25216865E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3018864E-02 Y=  0.1569792E-09 Z=  0.4662059E-02  Total=      0.0055541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193517E+02         XY= -0.15094320E-01         XZ=  0.97762928E-02
                YY= -0.10161265E+02         YZ=  0.23310293E-01         ZZ= -0.12216817E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64573067E-01 Y=  0.12897580E-10 Z= -0.35850427E-05   Total=     0.06457307
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24651351E+01         XY=  0.61012706E+00         XZ=  0.53913618E+00
                YY=  0.12448914E+01         YZ= -0.33873632E-04         ZZ=  0.12448206E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2527277E-02 Y=  0.1597243E-09 Z=  0.4661611E-02  Total=      0.0053026
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138056E+02         XY=  0.12636382E-01         XZ=  0.34319332E-01
                YY= -0.10161265E+02         YZ=  0.23308054E-01         ZZ= -0.12216821E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65669978E-01 Y=  0.17350361E-10 Z= -0.35669032E-05   Total=     0.06566998
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24858669E+01         XY=  0.62049137E+00         XZ=  0.54985297E+00
                YY=  0.12448960E+01         YZ= -0.33702201E-04         ZZ=  0.12448252E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7113038E-02 Y=  0.1607357E-09 Z=  0.4661449E-02  Total=      0.0085044
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092199E+02         XY=  0.35565187E-01         XZ=  0.54679241E-01
                YY= -0.10161265E+02         YZ=  0.23307241E-01         ZZ= -0.12216822E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41769360E-01 Y=  0.18681920E-10 Z= -0.26255023E-05   Total=     0.04176936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20342065E+01         XY=  0.39466326E+00         XZ=  0.35124731E+00
                YY=  0.12448932E+01         YZ= -0.24807240E-04         ZZ=  0.12448381E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8992420E-02 Y=  0.1610247E-09 Z=  0.4661358E-02  Total=      0.0101288
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073406E+02         XY=  0.44962098E-01         XZ=  0.63102167E-01
                YY= -0.10161264E+02         YZ=  0.23306787E-01         ZZ= -0.12216823E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19615861E-02 Y=  0.16472450E-10 Z= -0.20380869E-05   Total=     0.00196159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12819423E+01         XY=  0.18534303E-01         XZ=  0.18852847E-01
                YY=  0.12448865E+01         YZ= -0.19256987E-04         ZZ=  0.12448416E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7449153E-02 Y=  0.1619638E-09 Z=  0.4661029E-02  Total=      0.0087872
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088839E+02         XY=  0.37245764E-01         XZ=  0.56376032E-01
                YY= -0.10161264E+02         YZ=  0.23305144E-01         ZZ= -0.12216826E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38605030E-01 Y=  0.11724759E-10 Z= -0.25843523E-05   Total=     0.03860503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51534438E+00         XY= -0.36476467E+00         XZ= -0.32083889E+00
                YY=  0.12448846E+01         YZ= -0.24418486E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3069673E-02 Y=  0.1632641E-09 Z=  0.4660484E-02  Total=      0.0055806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132634E+02         XY=  0.15348365E-01         XZ=  0.37056317E-01
                YY= -0.10161264E+02         YZ=  0.23302419E-01         ZZ= -0.12216832E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64488767E-01 Y=  0.63657712E-11 Z= -0.34824778E-05   Total=     0.06448877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26218393E-01         XY= -0.60933054E+00         XZ= -0.53850955E+00
                YY=  0.12448896E+01         YZ= -0.32904588E-04         ZZ=  0.12448208E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2479726E-02 Y=  0.1660093E-09 Z=  0.4660045E-02  Total=      0.0052787
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188128E+02         XY= -0.12398634E-01         XZ=  0.12494807E-01
                YY= -0.10161264E+02         YZ=  0.23300225E-01         ZZ= -0.12216837E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65832438E-01 Y=  0.24004861E-11 Z= -0.34771326E-05   Total=     0.06583244
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82986737E-03         XY= -0.62202639E+00         XZ= -0.55125030E+00
                YY=  0.12448941E+01         YZ= -0.32854117E-04         ZZ=  0.12448252E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7086894E-02 Y=  0.1673096E-09 Z=  0.4659890E-02  Total=      0.0084817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234200E+02         XY= -0.35434473E-01         XZ= -0.79594493E-02
                YY= -0.10161264E+02         YZ=  0.23299449E-01         ZZ= -0.12216838E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42117266E-01 Y=  0.11043974E-11 Z= -0.25656682E-05   Total=     0.04211727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44897757E+00         XY= -0.39795049E+00         XZ= -0.35414953E+00
                YY=  0.12448915E+01         YZ= -0.24242038E-04         ZZ=  0.12448377E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8997733E-02 Y=  0.1675986E-09 Z=  0.4659806E-02  Total=      0.0101328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253309E+02         XY= -0.44988668E-01         XZ= -0.16519656E-01
                YY= -0.10161264E+02         YZ=  0.23299030E-01         ZZ= -0.12216838E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23631002E-02 Y=  0.25663176E-11 Z= -0.19885342E-05   Total=     0.00236310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12002164E+01         XY= -0.22328061E-01         XZ= -0.22185590E-01
                YY=  0.12448849E+01         YZ= -0.18788899E-04         ZZ=  0.12448411E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7484047E-02 Y=  0.1675986E-09 Z=  0.4659486E-02  Total=      0.0088160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238172E+02         XY= -0.37420235E-01         XZ= -0.99251200E-02
                YY= -0.10161263E+02         YZ=  0.23297427E-01         ZZ= -0.12216842E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38302240E-01 Y=  0.57674812E-11 Z= -0.25147448E-05   Total=     0.03830224
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19686799E+01         XY=  0.36190372E+00         XZ=  0.31830438E+00
                YY=  0.12448830E+01         YZ= -0.23760842E-04         ZZ=  0.12448307E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3121045E-02 Y=  0.1671651E-09 Z=  0.4658950E-02  Total=      0.0056077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194543E+02         XY= -0.15605228E-01         XZ=  0.93176049E-02
                YY= -0.10161263E+02         YZ=  0.23294746E-01         ZZ= -0.12216848E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64399667E-01 Y=  0.90998926E-11 Z= -0.33913335E-05   Total=     0.06439967
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24618554E+01         XY=  0.60848867E+00         XZ=  0.53771081E+00
                YY=  0.12448879E+01         YZ= -0.32043377E-04         ZZ=  0.12448209E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2431238E-02 Y=  0.1691879E-09 Z=  0.4658519E-02  Total=      0.0052548
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139020E+02         XY=  0.12156186E-01         XZ=  0.33887154E-01
                YY= -0.10161263E+02         YZ=  0.23292594E-01         ZZ= -0.12216852E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65990915E-01 Y=  0.11075100E-10 Z= -0.33912712E-05   Total=     0.06599091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24919287E+01         XY=  0.62352378E+00         XZ=  0.55248347E+00
                YY=  0.12448923E+01         YZ= -0.32042772E-04         ZZ=  0.12448251E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7059559E-02 Y=  0.1709939E-09 Z=  0.4658372E-02  Total=      0.0084580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092737E+02         XY=  0.35297795E-01         XZ=  0.54431580E-01
                YY= -0.10161263E+02         YZ=  0.23291856E-01         ZZ= -0.12216853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42463173E-01 Y=  0.10901115E-10 Z= -0.25015176E-05   Total=     0.04246317
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20473149E+01         XY=  0.40121884E+00         XZ=  0.35693922E+00
                YY=  0.12448898E+01         YZ= -0.23635820E-04         ZZ=  0.12448374E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9001790E-02 Y=  0.1724387E-09 Z=  0.4658295E-02  Total=      0.0101357
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073315E+02         XY=  0.45008946E-01         XZ=  0.63127161E-01
                YY= -0.10161263E+02         YZ=  0.23291474E-01         ZZ= -0.12216853E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27650349E-02 Y=  0.87222922E-11 Z= -0.19292489E-05   Total=     0.00276504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12971229E+01         XY=  0.26125794E-01         XZ=  0.25447882E-01
                YY=  0.12448834E+01         YZ= -0.18228683E-04         ZZ=  0.12448409E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7517801E-02 Y=  0.1737391E-09 Z=  0.4657983E-02  Total=      0.0088439
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088156E+02         XY=  0.37589001E-01         XZ=  0.56658378E-01
                YY= -0.10161263E+02         YZ=  0.23289914E-01         ZZ= -0.12216857E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37997074E-01 Y=  0.54375833E-11 Z= -0.24345044E-05   Total=     0.03799707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52683054E+00         XY= -0.35902032E+00         XZ= -0.31584431E+00
                YY=  0.12448815E+01         YZ= -0.23002684E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3171505E-02 Y=  0.1755451E-09 Z=  0.4657457E-02  Total=      0.0056347
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131619E+02         XY=  0.15857523E-01         XZ=  0.37482949E-01
                YY= -0.10161263E+02         YZ=  0.23287281E-01         ZZ= -0.12216863E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64307418E-01 Y=  0.22456854E-11 Z= -0.32927569E-05   Total=     0.06430742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29642538E-01         XY= -0.60761704E+00         XZ= -0.53701387E+00
                YY=  0.12448862E+01         YZ= -0.31112022E-04         ZZ=  0.12448212E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2383436E-02 Y=  0.1795183E-09 Z=  0.4657035E-02  Total=      0.0052315
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187168E+02         XY= -0.11917180E-01         XZ=  0.12897742E-01
                YY= -0.10161262E+02         YZ=  0.23285173E-01         ZZ= -0.12216867E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66146915E-01 Y=  0.13461268E-12 Z= -0.33038225E-05   Total=     0.06614691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.51158174E-02         XY= -0.62499777E+00         XZ= -0.55382470E+00
                YY=  0.12448906E+01         YZ= -0.31216595E-04         ZZ=  0.12448251E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7032797E-02 Y=  0.1813243E-09 Z=  0.4656895E-02  Total=      0.0084349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233662E+02         XY= -0.35163988E-01         XZ= -0.77393341E-02
                YY= -0.10161262E+02         YZ=  0.23284471E-01         ZZ= -0.12216868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42808446E-01 Y= -0.45288979E-12 Z= -0.24425798E-05   Total=     0.04280845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43591349E+00         XY= -0.40448119E+00         XZ= -0.35981902E+00
                YY=  0.12448882E+01         YZ= -0.23079036E-04         ZZ=  0.12448371E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9006480E-02 Y=  0.1812521E-09 Z=  0.4656825E-02  Total=      0.0101392
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253400E+02         XY= -0.45032404E-01         XZ= -0.16572125E-01
                YY= -0.10161262E+02         YZ=  0.23284123E-01         ZZ= -0.12216868E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31686227E-02 Y=  0.31341852E-12 Z= -0.18809037E-05   Total=     0.00316862
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11849918E+01         XY= -0.29939146E-01         XZ= -0.28797573E-01
                YY=  0.12448819E+01         YZ= -0.17771960E-04         ZZ=  0.12448405E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7552424E-02 Y=  0.1815411E-09 Z=  0.4656521E-02  Total=      0.0088726
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238859E+02         XY= -0.37762121E-01         XZ= -0.10236387E-01
                YY= -0.10161262E+02         YZ=  0.23282601E-01         ZZ= -0.12216872E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37688405E-01 Y=  0.18491554E-11 Z= -0.23675308E-05   Total=     0.03768840
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19570776E+01         XY=  0.35610382E+00         XZ=  0.31326294E+00
                YY=  0.12448800E+01         YZ= -0.22369907E-04         ZZ=  0.12448307E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3223171E-02 Y=  0.1827692E-09 Z=  0.4656003E-02  Total=      0.0056628
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195567E+02         XY= -0.16115858E-01         XZ=  0.88597450E-02
                YY= -0.10161262E+02         YZ=  0.23280011E-01         ZZ= -0.12216877E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64210964E-01 Y=  0.34654024E-11 Z= -0.32048968E-05   Total=     0.06421096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24582866E+01         XY=  0.60670569E+00         XZ=  0.53615818E+00
                YY=  0.12448846E+01         YZ= -0.30281855E-04         ZZ=  0.12448213E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2334097E-02 Y=  0.1858755E-09 Z=  0.4655589E-02  Total=      0.0052079
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139995E+02         XY=  0.11670483E-01         XZ=  0.33450781E-01
                YY= -0.10161262E+02         YZ=  0.23277943E-01         ZZ= -0.12216881E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66299428E-01 Y=  0.46379512E-11 Z= -0.32204667E-05   Total=     0.06629943
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24977559E+01         XY=  0.62643881E+00         XZ=  0.55501353E+00
                YY=  0.12448889E+01         YZ= -0.30428960E-04         ZZ=  0.12448251E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7004283E-02 Y=  0.1864534E-09 Z=  0.4655456E-02  Total=      0.0084103
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093293E+02         XY=  0.35021413E-01         XZ=  0.54176833E-01
                YY= -0.10161261E+02         YZ=  0.23277276E-01         ZZ= -0.12216882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43152093E-01 Y=  0.51183988E-11 Z= -0.23800612E-05   Total=     0.04315209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20603310E+01         XY=  0.40772819E+00         XZ=  0.36259489E+00
                YY=  0.12448866E+01         YZ= -0.22488274E-04         ZZ=  0.12448368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9009382E-02 Y=  0.1868869E-09 Z=  0.4655393E-02  Total=      0.0101411
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073243E+02         XY=  0.45046910E-01         XZ=  0.63145371E-01
                YY= -0.10161261E+02         YZ=  0.23276965E-01         ZZ= -0.12216882E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35728798E-02 Y=  0.49056226E-11 Z= -0.18236150E-05   Total=     0.00357288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13123866E+01         XY=  0.33758822E-01         XZ=  0.32083553E-01
                YY=  0.12448804E+01         YZ= -0.17230622E-04         ZZ=  0.12448403E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7585396E-02 Y=  0.1872481E-09 Z=  0.4655098E-02  Total=      0.0088999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087483E+02         XY=  0.37926977E-01         XZ=  0.56937272E-01
                YY= -0.10161261E+02         YZ=  0.23275486E-01         ZZ= -0.12216886E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37377210E-01 Y=  0.41220033E-11 Z= -0.22902794E-05   Total=     0.03737721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53854186E+00         XY= -0.35316346E+00         XZ= -0.31074883E+00
                YY=  0.12448785E+01         YZ= -0.21639968E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3273428E-02 Y=  0.1889096E-09 Z=  0.4654589E-02  Total=      0.0056904
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130603E+02         XY=  0.16367139E-01         XZ=  0.37911182E-01
                YY= -0.10161261E+02         YZ=  0.23272941E-01         ZZ= -0.12216891E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64111272E-01 Y=  0.29167542E-11 Z= -0.31091863E-05   Total=     0.06411127
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33346480E-01         XY= -0.60576373E+00         XZ= -0.53539635E+00
                YY=  0.12448830E+01         YZ= -0.29377528E-04         ZZ=  0.12448216E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2285930E-02 Y=  0.1928829E-09 Z=  0.4654183E-02  Total=      0.0051853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186196E+02         XY= -0.11429651E-01         XZ=  0.13307094E-01
                YY= -0.10161261E+02         YZ=  0.23270916E-01         ZZ= -0.12216896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66449394E-01 Y=  0.14477950E-11 Z= -0.31342387E-05   Total=     0.06644939
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.10834622E-01         XY= -0.62785578E+00         XZ= -0.55630339E+00
                YY=  0.12448873E+01         YZ= -0.29614252E-04         ZZ=  0.12448252E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6976813E-02 Y=  0.1949056E-09 Z=  0.4654057E-02  Total=      0.0083867
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233106E+02         XY= -0.34884065E-01         XZ= -0.75100682E-02
                YY= -0.10161261E+02         YZ=  0.23270285E-01         ZZ= -0.12216896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43495014E-01 Y= -0.64069131E-13 Z= -0.23208322E-05   Total=     0.04349501
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42293671E+00         XY= -0.41096832E+00         XZ= -0.36545564E+00
                YY=  0.12448851E+01         YZ= -0.21928686E-04         ZZ=  0.12448365E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9013374E-02 Y=  0.1958447E-09 Z=  0.4654002E-02  Total=      0.0101440
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253472E+02         XY= -0.45066872E-01         XZ= -0.16615839E-01
                YY= -0.10161261E+02         YZ=  0.23270007E-01         ZZ= -0.12216896E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39786544E-02 Y= -0.13002393E-11 Z= -0.17752670E-05   Total=     0.00397865
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11696822E+01         XY= -0.37592836E-01         XZ= -0.35451981E-01
                YY=  0.12448790E+01         YZ= -0.16773853E-04         ZZ=  0.12448399E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7619671E-02 Y=  0.1956280E-09 Z=  0.4653714E-02  Total=      0.0089284
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239535E+02         XY= -0.38098357E-01         XZ= -0.10542261E-01
                YY= -0.10161260E+02         YZ=  0.23268566E-01         ZZ= -0.12216900E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37062706E-01 Y= -0.18802206E-11 Z= -0.22249726E-05   Total=     0.03706271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19452513E+01         XY=  0.35019182E+00         XZ=  0.30812033E+00
                YY=  0.12448771E+01         YZ= -0.21022959E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3325300E-02 Y=  0.1953390E-09 Z=  0.4653213E-02  Total=      0.0057193
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196591E+02         XY= -0.16626503E-01         XZ=  0.84022519E-02
                YY= -0.10161260E+02         YZ=  0.23266062E-01         ZZ= -0.12216905E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64007632E-01 Y= -0.15103219E-11 Z= -0.30241837E-05   Total=     0.06400763
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24544416E+01         XY=  0.60478448E+00         XZ=  0.53448485E+00
                YY=  0.12448814E+01         YZ= -0.28574407E-04         ZZ=  0.12448217E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2235849E-02 Y=  0.1980842E-09 Z=  0.4652815E-02  Total=      0.0051621
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140980E+02         XY=  0.11179241E-01         XZ=  0.33010030E-01
                YY= -0.10161260E+02         YZ=  0.23264074E-01         ZZ= -0.12216909E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66596199E-01 Y= -0.17804579E-12 Z= -0.30535916E-05   Total=     0.06659620
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25033614E+01         XY=  0.62924289E+00         XZ=  0.55745014E+00
                YY=  0.12448856E+01         YZ= -0.28852260E-04         ZZ=  0.12448252E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6947250E-02 Y=  0.1977230E-09 Z=  0.4652696E-02  Total=      0.0083613
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093867E+02         XY=  0.34736246E-01         XZ=  0.53915089E-01
                YY= -0.10161260E+02         YZ=  0.23263478E-01         ZZ= -0.12216910E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43836714E-01 Y=  0.17144730E-11 Z= -0.22605896E-05   Total=     0.04383671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20732660E+01         XY=  0.41419692E+00         XZ=  0.36822083E+00
                YY=  0.12448835E+01         YZ= -0.21359461E-04         ZZ=  0.12448363E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9015279E-02 Y=  0.1960615E-09 Z=  0.4652648E-02  Total=      0.0101451
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073187E+02         XY=  0.45076396E-01         XZ=  0.63157127E-01
                YY= -0.10161260E+02         YZ=  0.23263236E-01         ZZ= -0.12216910E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43855970E-02 Y=  0.34085496E-11 Z= -0.17207551E-05   Total=     0.00438560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13277425E+01         XY=  0.41437887E-01         XZ=  0.38765468E-01
                YY=  0.12448777E+01         YZ= -0.16258750E-04         ZZ=  0.12448397E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7652050E-02 Y=  0.1955558E-09 Z=  0.4652367E-02  Total=      0.0089554
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086819E+02         XY=  0.38260247E-01         XZ=  0.57213245E-01
                YY= -0.10161260E+02         YZ=  0.23261835E-01         ZZ= -0.12216913E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36745071E-01 Y=  0.40427542E-11 Z= -0.21514313E-05   Total=     0.03674507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55048531E+00         XY= -0.34719061E+00         XZ= -0.30554783E+00
                YY=  0.12448757E+01         YZ= -0.20328045E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3375579E-02 Y=  0.1967839E-09 Z=  0.4651875E-02  Total=      0.0057476
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129584E+02         XY=  0.16877892E-01         XZ=  0.38341711E-01
                YY= -0.10161260E+02         YZ=  0.23259375E-01         ZZ= -0.12216919E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63900036E-01 Y=  0.30363251E-11 Z= -0.29319896E-05   Total=     0.06390004
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37335729E-01         XY= -0.60376784E+00         XZ= -0.53365339E+00
                YY=  0.12448799E+01         YZ= -0.27703261E-04         ZZ=  0.12448220E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2187053E-02 Y=  0.2002514E-09 Z=  0.4651486E-02  Total=      0.0051400
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185211E+02         XY= -0.10935269E-01         XZ=  0.13723691E-01
                YY= -0.10161259E+02         YZ=  0.23257428E-01         ZZ= -0.12216923E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66739643E-01 Y=  0.42481269E-12 Z= -0.29692342E-05   Total=     0.06673964
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.16322164E-01         XY= -0.63059823E+00         XZ= -0.55868377E+00
                YY=  0.12448841E+01         YZ= -0.28055193E-04         ZZ=  0.12448253E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6918769E-02 Y=  0.2011183E-09 Z=  0.4651374E-02  Total=      0.0083369
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232528E+02         XY= -0.34593849E-01         XZ= -0.72707423E-02
                YY= -0.10161259E+02         YZ=  0.23256866E-01         ZZ= -0.12216923E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44176819E-01 Y= -0.30309366E-11 Z= -0.22017487E-05   Total=     0.04417682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41005005E+00         XY= -0.41741045E+00         XZ= -0.37105815E+00
                YY=  0.12448821E+01         YZ= -0.20803536E-04         ZZ=  0.12448361E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9018236E-02 Y=  0.2006849E-09 Z=  0.4651332E-02  Total=      0.0101471
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253523E+02         XY= -0.45091182E-01         XZ= -0.16649873E-01
                YY= -0.10161259E+02         YZ=  0.23256657E-01         ZZ= -0.12216923E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47931927E-02 Y= -0.60697885E-11 Z= -0.16730785E-05   Total=     0.00479319
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11542875E+01         XY= -0.45289107E-01         XZ= -0.42149482E-01
                YY=  0.12448763E+01         YZ= -0.15808351E-04         ZZ=  0.12448395E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7685619E-02 Y=  0.1993845E-09 Z=  0.4651059E-02  Total=      0.0089834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240198E+02         XY= -0.38428098E-01         XZ= -0.10841899E-01
                YY= -0.10161259E+02         YZ=  0.23255294E-01         ZZ= -0.12216926E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36424915E-01 Y= -0.74180209E-11 Z= -0.20884071E-05   Total=     0.03642491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19331966E+01         XY=  0.34416557E+00         XZ=  0.30287334E+00
                YY=  0.12448744E+01         YZ= -0.19732648E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3427295E-02 Y=  0.1990956E-09 Z=  0.4650575E-02  Total=      0.0057770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197614E+02         XY= -0.17136475E-01         XZ=  0.79457643E-02
                YY= -0.10161259E+02         YZ=  0.23252873E-01         ZZ= -0.12216932E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63789144E-01 Y= -0.63568341E-11 Z= -0.28503519E-05   Total=     0.06378914
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24503103E+01         XY=  0.60272006E+00         XZ=  0.53268464E+00
                YY=  0.12448784E+01         YZ= -0.26931974E-04         ZZ=  0.12448221E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2136574E-02 Y=  0.2021297E-09 Z=  0.4650193E-02  Total=      0.0051175
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141976E+02         XY=  0.10682868E-01         XZ=  0.32565213E-01
                YY= -0.10161259E+02         YZ=  0.23250962E-01         ZZ= -0.12216935E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66880404E-01 Y= -0.31041374E-11 Z= -0.28916461E-05   Total=     0.06688040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25087295E+01         XY=  0.63192823E+00         XZ=  0.55978445E+00
                YY=  0.12448825E+01         YZ= -0.27322120E-04         ZZ=  0.12448253E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6888464E-02 Y=  0.2022742E-09 Z=  0.4650087E-02  Total=      0.0083111
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094457E+02         XY=  0.34442319E-01         XZ=  0.53646238E-01
                YY= -0.10161259E+02         YZ=  0.23250433E-01         ZZ= -0.12216936E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44516009E-01 Y=  0.11824172E-11 Z= -0.21439667E-05   Total=     0.04451601
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20861004E+01         XY=  0.42061533E+00         XZ=  0.37380660E+00
                YY=  0.12448806E+01         YZ= -0.20257538E-04         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9019399E-02 Y=  0.2022019E-09 Z=  0.4650052E-02  Total=      0.0101475
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073148E+02         XY=  0.45096993E-01         XZ=  0.63161863E-01
                YY= -0.10161259E+02         YZ=  0.23250258E-01         ZZ= -0.12216936E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52021275E-02 Y=  0.48373068E-11 Z= -0.16214638E-05   Total=     0.00520213
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13431706E+01         XY=  0.49152981E-01         XZ=  0.45483288E-01
                YY=  0.12448750E+01         YZ= -0.15320571E-04         ZZ=  0.12448393E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7717602E-02 Y=  0.2022742E-09 Z=  0.4649787E-02  Total=      0.0090101
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086167E+02         XY=  0.38588008E-01         XZ=  0.57485333E-01
                YY= -0.10161258E+02         YZ=  0.23248934E-01         ZZ= -0.12216939E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36101526E-01 Y=  0.63760238E-11 Z= -0.20188336E-05   Total=     0.03610153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56264443E+00         XY= -0.34110998E+00         XZ= -0.30024951E+00
                YY=  0.12448730E+01         YZ= -0.19075158E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3477741E-02 Y=  0.2033578E-09 Z=  0.4649311E-02  Total=      0.0058061
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128565E+02         XY=  0.17388705E-01         XZ=  0.38773306E-01
                YY= -0.10161258E+02         YZ=  0.23246555E-01         ZZ= -0.12216944E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63674192E-01 Y=  0.51615915E-11 Z= -0.27622263E-05   Total=     0.06367419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41601168E-01         XY= -0.60163392E+00         XZ= -0.53178925E+00
                YY=  0.12448770E+01         YZ= -0.26099211E-04         ZZ=  0.12448224E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2087039E-02 Y=  0.2073310E-09 Z=  0.4648937E-02  Total=      0.0050959
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184213E+02         XY= -0.10435195E-01         XZ=  0.14146229E-01
                YY= -0.10161258E+02         YZ=  0.23244683E-01         ZZ= -0.12216948E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67017640E-01 Y=  0.17388112E-11 Z= -0.28099682E-05   Total=     0.06701764
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.21578041E-01         XY= -0.63322493E+00         XZ= -0.56096524E+00
                YY=  0.12448810E+01         YZ= -0.26550336E-04         ZZ=  0.12448254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6858876E-02 Y=  0.2094982E-09 Z=  0.4648838E-02  Total=      0.0082859
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231932E+02         XY= -0.34294381E-01         XZ= -0.70225214E-02
                YY= -0.10161258E+02         YZ=  0.23244186E-01         ZZ= -0.12216948E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44853347E-01 Y= -0.23306768E-11 Z= -0.20863787E-05   Total=     0.04485335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39726325E+00         XY= -0.42380271E+00         XZ= -0.37662123E+00
                YY=  0.12448793E+01         YZ= -0.19713439E-04         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9021215E-02 Y=  0.2093538E-09 Z=  0.4648809E-02  Total=      0.0101486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253556E+02         XY= -0.45106078E-01         XZ= -0.16675081E-01
                YY= -0.10161258E+02         YZ=  0.23244045E-01         ZZ= -0.12216948E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56113630E-02 Y= -0.51018264E-11 Z= -0.15752339E-05   Total=     0.00561136
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11388243E+01         XY= -0.53019697E-01         XZ= -0.48881391E-01
                YY=  0.12448738E+01         YZ= -0.14883843E-04         ZZ=  0.12448390E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7750339E-02 Y=  0.2084869E-09 Z=  0.4648552E-02  Total=      0.0090375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240847E+02         XY= -0.38751698E-01         XZ= -0.11135746E-01
                YY= -0.10161258E+02         YZ=  0.23242757E-01         ZZ= -0.12216951E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35776044E-01 Y= -0.50748111E-11 Z= -0.19588770E-05   Total=     0.03577604
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19209326E+01         XY=  0.33803462E+00         XZ=  0.29753199E+00
                YY=  0.12448718E+01         YZ= -0.18508745E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3529146E-02 Y=  0.2079089E-09 Z=  0.4648083E-02  Total=      0.0058361
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198636E+02         XY= -0.17645730E-01         XZ=  0.74902554E-02
                YY= -0.10161258E+02         YZ=  0.23240415E-01         ZZ= -0.12216957E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63556418E-01 Y= -0.18711437E-11 Z= -0.26850424E-05   Total=     0.06355642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24459101E+01         XY=  0.60052112E+00         XZ=  0.53076683E+00
                YY=  0.12448756E+01         YZ= -0.25369987E-04         ZZ=  0.12448225E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2036345E-02 Y=  0.2105096E-09 Z=  0.4647716E-02  Total=      0.0050742
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142981E+02         XY=  0.10181722E-01         XZ=  0.32116645E-01
                YY= -0.10161257E+02         YZ=  0.23238576E-01         ZZ= -0.12216960E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67152685E-01 Y=  0.35533672E-11 Z= -0.27370728E-05   Total=     0.06715269
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25138724E+01         XY=  0.63450092E+00         XZ=  0.56202328E+00
                YY=  0.12448796E+01         YZ= -0.25861557E-04         ZZ=  0.12448254E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6828035E-02 Y=  0.2113765E-09 Z=  0.4647622E-02  Total=      0.0082597
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095064E+02         XY=  0.34140172E-01         XZ=  0.53370812E-01
                YY= -0.10161257E+02         YZ=  0.23238110E-01         ZZ= -0.12216961E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45190267E-01 Y=  0.92634248E-11 Z= -0.20332088E-05   Total=     0.04519027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20988398E+01         XY=  0.42698614E+00         XZ=  0.37935576E+00
                YY=  0.12448779E+01         YZ= -0.19210958E-04         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9021858E-02 Y=  0.2126768E-09 Z=  0.4647600E-02  Total=      0.0101486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073127E+02         XY=  0.45109289E-01         XZ=  0.63160194E-01
                YY= -0.10161257E+02         YZ=  0.23238000E-01         ZZ= -0.12216960E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60224383E-02 Y=  0.13142342E-10 Z= -0.15288863E-05   Total=     0.00602244
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13586703E+01         XY=  0.56903796E-01         XZ=  0.52237517E-01
                YY=  0.12448725E+01         YZ= -0.14445770E-04         ZZ=  0.12448388E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7782157E-02 Y=  0.2146273E-09 Z=  0.4647350E-02  Total=      0.0090642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085524E+02         XY=  0.38910784E-01         XZ=  0.57754118E-01
                YY= -0.10161257E+02         YZ=  0.23236750E-01         ZZ= -0.12216963E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35446823E-01 Y=  0.13782279E-10 Z= -0.18954479E-05   Total=     0.03544682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57501451E+00         XY= -0.33492394E+00         XZ= -0.29485562E+00
                YY=  0.12448705E+01         YZ= -0.17909269E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3579997E-02 Y=  0.2180227E-09 Z=  0.4646890E-02  Total=      0.0058660
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127546E+02         XY=  0.17899983E-01         XZ=  0.39206451E-01
                YY= -0.10161257E+02         YZ=  0.23234447E-01         ZZ= -0.12216968E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63434076E-01 Y=  0.11091094E-10 Z= -0.26026183E-05   Total=     0.06343408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46136429E-01         XY= -0.59936516E+00         XZ= -0.52980691E+00
                YY=  0.12448742E+01         YZ= -0.24591083E-04         ZZ=  0.12448228E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1985831E-02 Y=  0.2230073E-09 Z=  0.4646529E-02  Total=      0.0050531
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183204E+02         XY= -0.99291576E-02         XZ=  0.14575059E-01
                YY= -0.10161257E+02         YZ=  0.23232644E-01         ZZ= -0.12216972E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67283717E-01 Y=  0.63434209E-11 Z= -0.26589765E-05   Total=     0.06728372
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.26608550E-01         XY= -0.63573899E+00         XZ= -0.56315124E+00
                YY=  0.12448781E+01         YZ= -0.25123630E-04         ZZ=  0.12448255E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6797102E-02 Y=  0.2239464E-09 Z=  0.4646442E-02  Total=      0.0082335
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231317E+02         XY= -0.33985512E-01         XZ= -0.67652023E-02
                YY= -0.10161257E+02         YZ=  0.23232210E-01         ZZ= -0.12216972E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45524900E-01 Y=  0.16509318E-11 Z= -0.19770641E-05   Total=     0.04552490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38457057E+00         XY= -0.43014796E+00         XZ= -0.38214858E+00
                YY=  0.12448765E+01         YZ= -0.18680531E-04         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9022307E-02 Y=  0.2242354E-09 Z=  0.4646427E-02  Total=      0.0101485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253570E+02         XY= -0.45111538E-01         XZ= -0.16691423E-01
                YY= -0.10161257E+02         YZ=  0.23232132E-01         ZZ= -0.12216972E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64334764E-02 Y= -0.93614226E-12 Z= -0.14837976E-05   Total=     0.00643348
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11232866E+01         XY= -0.60787542E-01         XZ= -0.55651790E-01
                YY=  0.12448713E+01         YZ= -0.14019859E-04         ZZ=  0.12448385E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7813855E-02 Y=  0.2243798E-09 Z=  0.4646184E-02  Total=      0.0090908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241485E+02         XY= -0.39069275E-01         XZ= -0.11423956E-01
                YY= -0.10161257E+02         YZ=  0.23230917E-01         ZZ= -0.12216975E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35115712E-01 Y= -0.29854406E-12 Z= -0.18380641E-05   Total=     0.03511571
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19084522E+01         XY=  0.33179540E+00         XZ=  0.29209148E+00
                YY=  0.12448693E+01         YZ= -0.17367187E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3630915E-02 Y=  0.2245966E-09 Z=  0.4645730E-02  Total=      0.0058963
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199656E+02         XY= -0.18154577E-01         XZ=  0.70353373E-02
                YY= -0.10161256E+02         YZ=  0.23228650E-01         ZZ= -0.12216980E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63308964E-01 Y=  0.32790430E-11 Z= -0.25294118E-05   Total=     0.06330896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24412317E+01         XY=  0.59818302E+00         XZ=  0.52872575E+00
                YY=  0.12448729E+01         YZ= -0.23899446E-04         ZZ=  0.12448229E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1935053E-02 Y=  0.2277752E-09 Z=  0.4645376E-02  Total=      0.0050323
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143996E+02         XY=  0.96752612E-02         XZ=  0.31663672E-01
                YY= -0.10161256E+02         YZ=  0.23226878E-01         ZZ= -0.12216984E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67412471E-01 Y=  0.82355799E-11 Z= -0.25902870E-05   Total=     0.06741247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25187794E+01         XY=  0.63695554E+00         XZ=  0.56416059E+00
                YY=  0.12448768E+01         YZ= -0.24474592E-04         ZZ=  0.12448255E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6765803E-02 Y=  0.2289310E-09 Z=  0.4645295E-02  Total=      0.0082070
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095689E+02         XY=  0.33829012E-01         XZ=  0.53087893E-01
                YY= -0.10161256E+02         YZ=  0.23226472E-01         ZZ= -0.12216984E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45858932E-01 Y=  0.12401461E-10 Z= -0.19278141E-05   Total=     0.04585893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21114737E+01         XY=  0.43330411E+00         XZ=  0.38486295E+00
                YY=  0.12448752E+01         YZ= -0.18215096E-04         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9022456E-02 Y=  0.2303036E-09 Z=  0.4645285E-02  Total=      0.0101481
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073123E+02         XY=  0.45112276E-01         XZ=  0.63150995E-01
                YY= -0.10161256E+02         YZ=  0.23226424E-01         ZZ= -0.12216984E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68461410E-02 Y=  0.13925930E-10 Z= -0.14417081E-05   Total=     0.00684614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13742341E+01         XY=  0.64686658E-01         XZ=  0.59024825E-01
                YY=  0.12448701E+01         YZ= -0.13622048E-04         ZZ=  0.12448383E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7845492E-02 Y=  0.2314594E-09 Z=  0.4645049E-02  Total=      0.0091175
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084893E+02         XY=  0.39227457E-01         XZ=  0.58018388E-01
                YY= -0.10161256E+02         YZ=  0.23225244E-01         ZZ= -0.12216986E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34781037E-01 Y=  0.12051989E-10 Z= -0.17796291E-05   Total=     0.03478104
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58759414E+00         XY= -0.32863318E+00         XZ= -0.28936621E+00
                YY=  0.12448681E+01         YZ= -0.16814954E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3682130E-02 Y=  0.2337711E-09 Z=  0.4644603E-02  Total=      0.0059271
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126527E+02         XY=  0.18410647E-01         XZ=  0.39640005E-01
                YY= -0.10161256E+02         YZ=  0.23223014E-01         ZZ= -0.12216991E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63179365E-01 Y=  0.74183080E-11 Z= -0.24518052E-05   Total=     0.06317937
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50947635E-01         XY= -0.59695849E+00         XZ= -0.52770255E+00
                YY=  0.12448716E+01         YZ= -0.23166136E-04         ZZ=  0.12448231E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1883605E-02 Y=  0.2365163E-09 Z=  0.4644256E-02  Total=      0.0050117
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182184E+02         XY= -0.94180286E-02         XZ=  0.15009278E-01
                YY= -0.10161256E+02         YZ=  0.23221276E-01         ZZ= -0.12216995E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67537170E-01 Y=  0.17641245E-11 Z= -0.25155195E-05   Total=     0.06753717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.31400364E-01         XY= -0.63813378E+00         XZ= -0.56523444E+00
                YY=  0.12448754E+01         YZ= -0.23768197E-04         ZZ=  0.12448256E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6733555E-02 Y=  0.2362996E-09 Z=  0.4644180E-02  Total=      0.0081798
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230684E+02         XY= -0.33667776E-01         XZ= -0.64993205E-02
                YY= -0.10161256E+02         YZ=  0.23220900E-01         ZZ= -0.12216995E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46190520E-01 Y= -0.28191305E-11 Z= -0.18735674E-05   Total=     0.04619052
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37199011E+00         XY= -0.43643716E+00         XZ= -0.38763060E+00
                YY=  0.12448740E+01         YZ= -0.17702667E-04         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9021538E-02 Y=  0.2356494E-09 Z=  0.4644177E-02  Total=      0.0101467
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253564E+02         XY= -0.45107690E-01         XZ= -0.16699013E-01
                YY= -0.10161255E+02         YZ=  0.23220883E-01         ZZ= -0.12216995E+02
  Expectation value of momentum operator [a. u.]
    X= -0.72585284E-02 Y= -0.47678813E-11 Z= -0.13986913E-05   Total=     0.00725853
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11076936E+01         XY= -0.68583154E-01         XZ= -0.62450826E-01
                YY=  0.12448690E+01         YZ= -0.13215754E-04         ZZ=  0.12448381E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7876116E-02 Y=  0.2349270E-09 Z=  0.4643948E-02  Total=      0.0091433
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242110E+02         XY= -0.39380584E-01         XZ= -0.11706253E-01
                YY= -0.10161255E+02         YZ=  0.23219737E-01         ZZ= -0.12216997E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34444746E-01 Y= -0.36694356E-11 Z= -0.17258569E-05   Total=     0.03444475
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18957709E+01         XY=  0.32545568E+00         XZ=  0.28655984E+00
                YY=  0.12448670E+01         YZ= -0.16307012E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3732501E-02 Y=  0.2350715E-09 Z=  0.4643509E-02  Total=      0.0059577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200674E+02         XY= -0.18662506E-01         XZ=  0.65815557E-02
                YY= -0.10161255E+02         YZ=  0.23217541E-01         ZZ= -0.12217002E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63047253E-01 Y= -0.37831865E-12 Z= -0.23833995E-05   Total=     0.06304725
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24362840E+01         XY=  0.59571021E+00         XZ=  0.52656604E+00
                YY=  0.12448703E+01         YZ= -0.22519863E-04         ZZ=  0.12448232E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1832819E-02 Y=  0.2388280E-09 Z=  0.4643167E-02  Total=      0.0049918
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145021E+02         XY=  0.91640936E-02         XZ=  0.31206944E-01
                YY= -0.10161255E+02         YZ=  0.23215832E-01         ZZ= -0.12217006E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67659796E-01 Y=  0.34049493E-11 Z= -0.24514491E-05   Total=     0.06765980
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25234510E+01         XY=  0.63929242E+00         XZ=  0.56619690E+00
                YY=  0.12448741E+01         YZ= -0.23162808E-04         ZZ=  0.12448256E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6701876E-02 Y=  0.2388280E-09 Z=  0.4643097E-02  Total=      0.0081531
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096331E+02         XY=  0.33509376E-01         XZ=  0.52798066E-01
                YY= -0.10161255E+02         YZ=  0.23215481E-01         ZZ= -0.12217006E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46521640E-01 Y=  0.58877215E-11 Z= -0.18281908E-05   Total=     0.04652164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21239950E+01         XY=  0.43956580E+00         XZ=  0.39032492E+00
                YY=  0.12448727E+01         YZ= -0.17273849E-04         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9021257E-02 Y=  0.2381056E-09 Z=  0.4643099E-02  Total=      0.0101460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073138E+02         XY=  0.45106285E-01         XZ=  0.63134652E-01
                YY= -0.10161255E+02         YZ=  0.23215493E-01         ZZ= -0.12217006E+02
  Expectation value of momentum operator [a. u.]
    X=  0.76726022E-02 Y=  0.59409483E-11 Z= -0.13604458E-05   Total=     0.00767260
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13898502E+01         XY=  0.72495585E-01         XZ=  0.65839348E-01
                YY=  0.12448679E+01         YZ= -0.12854300E-04         ZZ=  0.12448378E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7907617E-02 Y=  0.2387558E-09 Z=  0.4642876E-02  Total=      0.0091699
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084274E+02         XY=  0.39538081E-01         XZ=  0.58278257E-01
                YY= -0.10161255E+02         YZ=  0.23214381E-01         ZZ= -0.12217008E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34104898E-01 Y=  0.35263272E-11 Z= -0.16718164E-05   Total=     0.03410490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60036953E+00         XY= -0.32224459E+00         XZ= -0.28378820E+00
                YY=  0.12448659E+01         YZ= -0.15796346E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3784096E-02 Y=  0.2402728E-09 Z=  0.4642444E-02  Total=      0.0059893
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125510E+02         XY=  0.18920480E-01         XZ=  0.40073801E-01
                YY= -0.10161255E+02         YZ=  0.23212219E-01         ZZ= -0.12217013E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62910725E-01 Y= -0.36113439E-12 Z= -0.23099746E-05   Total=     0.06291073
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56022183E-01         XY= -0.59442021E+00         XZ= -0.52548269E+00
                YY=  0.12448691E+01         YZ= -0.21826100E-04         ZZ=  0.12448235E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1780449E-02 Y=  0.2451852E-09 Z=  0.4642109E-02  Total=      0.0049718
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181155E+02         XY= -0.89022473E-02         XZ=  0.15448485E-01
                YY= -0.10161255E+02         YZ=  0.23210541E-01         ZZ= -0.12217016E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67778505E-01 Y= -0.41815996E-11 Z= -0.23793439E-05   Total=     0.06777850
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.35963050E-01         XY= -0.64041406E+00         XZ= -0.56722003E+00
                YY=  0.12448728E+01         YZ= -0.22481576E-04         ZZ=  0.12448257E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6668351E-02 Y=  0.2453297E-09 Z=  0.4642044E-02  Total=      0.0081250
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230035E+02         XY= -0.33341757E-01         XZ= -0.62254494E-02
                YY= -0.10161254E+02         YZ=  0.23210219E-01         ZZ= -0.12217017E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46850532E-01 Y= -0.65290412E-11 Z= -0.17750314E-05   Total=     0.04685053
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35951572E+00         XY= -0.44267337E+00         XZ= -0.39307096E+00
                YY=  0.12448715E+01         YZ= -0.16771671E-04         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9019040E-02 Y=  0.2434514E-09 Z=  0.4642053E-02  Total=      0.0101436
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253542E+02         XY= -0.45095202E-01         XZ= -0.16698535E-01
                YY= -0.10161254E+02         YZ=  0.23210262E-01         ZZ= -0.12217016E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80867090E-02 Y= -0.67017942E-11 Z= -0.13184723E-05   Total=     0.00808671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10920415E+01         XY= -0.76408326E-01         XZ= -0.69280914E-01
                YY=  0.12448668E+01         YZ= -0.12457814E-04         ZZ=  0.12448376E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7937268E-02 Y=  0.2422956E-09 Z=  0.4641837E-02  Total=      0.0091949
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242724E+02         XY= -0.39686342E-01         XZ= -0.11983399E-01
                YY= -0.10161254E+02         YZ=  0.23209183E-01         ZZ= -0.12217018E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33763017E-01 Y= -0.49223184E-11 Z= -0.16204996E-05   Total=     0.03376302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18828864E+01         XY=  0.31901428E+00         XZ=  0.28093535E+00
                YY=  0.12448648E+01         YZ= -0.15311545E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3834055E-02 Y=  0.2420066E-09 Z=  0.4641411E-02  Total=      0.0060202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201692E+02         XY= -0.19170277E-01         XZ=  0.61280869E-02
                YY= -0.10161254E+02         YZ=  0.23207053E-01         ZZ= -0.12217023E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62771160E-01 Y= -0.21499988E-11 Z= -0.22452915E-05   Total=     0.06277116
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24310646E+01         XY=  0.59310151E+00         XZ=  0.52428623E+00
                YY=  0.12448679E+01         YZ= -0.21214950E-04         ZZ=  0.12448236E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1729481E-02 Y=  0.2460521E-09 Z=  0.4641081E-02  Total=      0.0049529
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146057E+02         XY=  0.86474047E-02         XZ=  0.30745577E-01
                YY= -0.10161254E+02         YZ=  0.23205402E-01         ZZ= -0.12217027E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67894527E-01 Y=  0.39496238E-12 Z= -0.23190471E-05   Total=     0.06789453
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25278847E+01         XY=  0.64151031E+00         XZ=  0.56813098E+00
                YY=  0.12448715E+01         YZ= -0.21911819E-04         ZZ=  0.12448257E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6636079E-02 Y=  0.2472079E-09 Z=  0.4641021E-02  Total=      0.0080979
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096991E+02         XY=  0.33180391E-01         XZ=  0.52500395E-01
                YY= -0.10161254E+02         YZ=  0.23205105E-01         ZZ= -0.12217027E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47178288E-01 Y=  0.17568675E-11 Z= -0.17329294E-05   Total=     0.04717829
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21364020E+01         XY=  0.44577022E+00         XZ=  0.39574101E+00
                YY=  0.12448704E+01         YZ= -0.16373797E-04         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9018082E-02 Y=  0.2462688E-09 Z=  0.4641035E-02  Total=      0.0101422
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073172E+02         XY=  0.45090410E-01         XZ=  0.63110216E-01
                YY= -0.10161254E+02         YZ=  0.23205174E-01         ZZ= -0.12217026E+02
  Expectation value of momentum operator [a. u.]
    X=  0.85018197E-02 Y=  0.15929228E-11 Z= -0.12836706E-05   Total=     0.00850182
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14055185E+01         XY=  0.80330555E-01         XZ=  0.72681663E-01
                YY=  0.12448657E+01         YZ= -0.12128918E-04         ZZ=  0.12448374E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7968356E-02 Y=  0.2447517E-09 Z=  0.4640826E-02  Total=      0.0092213
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083669E+02         XY=  0.39841779E-01         XZ=  0.58532828E-01
                YY= -0.10161254E+02         YZ=  0.23204126E-01         ZZ= -0.12217029E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33418234E-01 Y=  0.20869030E-12 Z= -0.15706759E-05   Total=     0.03341823
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61334391E+00         XY= -0.31575655E+00         XZ= -0.27811923E+00
                YY=  0.12448637E+01         YZ= -0.14840737E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3885743E-02 Y=  0.2462688E-09 Z=  0.4640406E-02  Total=      0.0060525
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124495E+02         XY=  0.19428712E-01         XZ=  0.40507086E-01
                YY= -0.10161254E+02         YZ=  0.23202029E-01         ZZ= -0.12217033E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62627777E-01 Y= -0.16851864E-11 Z= -0.21762027E-05   Total=     0.06262778
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61367231E-01         XY= -0.59174673E+00         XZ= -0.52314306E+00
                YY=  0.12448668E+01         YZ= -0.20562152E-04         ZZ=  0.12448238E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1676477E-02 Y=  0.2530594E-09 Z=  0.4640082E-02  Total=      0.0049337
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180118E+02         XY= -0.83823864E-02         XZ=  0.15892146E-01
                YY= -0.10161254E+02         YZ=  0.23200407E-01         ZZ= -0.12217037E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68007161E-01 Y= -0.33461338E-11 Z= -0.22501538E-05   Total=     0.06800716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.40286048E-01         XY= -0.64257455E+00         XZ= -0.56910222E+00
                YY=  0.12448703E+01         YZ= -0.21260902E-04         ZZ=  0.12448259E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6601554E-02 Y=  0.2542875E-09 Z=  0.4640028E-02  Total=      0.0080691
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229369E+02         XY= -0.33007773E-01         XZ= -0.59438483E-02
                YY= -0.10161253E+02         YZ=  0.23200137E-01         ZZ= -0.12217037E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47504288E-01 Y= -0.43091783E-11 Z= -0.16816850E-05   Total=     0.04750429
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34715966E+00         XY= -0.44885048E+00         XZ= -0.39846326E+00
                YY=  0.12448692E+01         YZ= -0.15889659E-04         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9014824E-02 Y=  0.2531317E-09 Z=  0.4640048E-02  Total=      0.0101389
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253502E+02         XY= -0.45074122E-01         XZ= -0.16689974E-01
                YY= -0.10161253E+02         YZ=  0.23200236E-01         ZZ= -0.12217036E+02
  Expectation value of momentum operator [a. u.]
    X= -0.89174091E-02 Y= -0.45073089E-11 Z= -0.12435467E-05   Total=     0.00891741
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10763419E+01         XY= -0.84257305E-01         XZ= -0.76136331E-01
                YY=  0.12448647E+01         YZ= -0.11749854E-04         ZZ=  0.12448372E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7997274E-02 Y=  0.2519758E-09 Z=  0.4639845E-02  Total=      0.0092458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243327E+02         XY= -0.39986371E-01         XZ= -0.12255159E-01
                YY= -0.10161253E+02         YZ=  0.23199221E-01         ZZ= -0.12217038E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33070963E-01 Y= -0.41762515E-11 Z= -0.15222428E-05   Total=     0.03307096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18698068E+01         XY=  0.31247531E+00         XZ=  0.27522188E+00
                YY=  0.12448627E+01         YZ= -0.14383148E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3935517E-02 Y=  0.2511089E-09 Z=  0.4639431E-02  Total=      0.0060838
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202709E+02         XY= -0.19677585E-01         XZ=  0.56752820E-02
                YY= -0.10161253E+02         YZ=  0.23197154E-01         ZZ= -0.12217043E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62480857E-01 Y= -0.36419158E-11 Z= -0.21150182E-05   Total=     0.06248086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24255769E+01         XY=  0.59035854E+00         XZ=  0.52188755E+00
                YY=  0.12448656E+01         YZ= -0.19984060E-04         ZZ=  0.12448239E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1625102E-02 Y=  0.2534929E-09 Z=  0.4639112E-02  Total=      0.0049155
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147103E+02         XY=  0.81255093E-02         XZ=  0.30279916E-01
                YY= -0.10161253E+02         YZ=  0.23195557E-01         ZZ= -0.12217046E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68116541E-01 Y= -0.31285247E-11 Z= -0.21926524E-05   Total=     0.06811654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25320782E+01         XY=  0.64360804E+00         XZ=  0.56996123E+00
                YY=  0.12448691E+01         YZ= -0.20717593E-04         ZZ=  0.12448258E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6568453E-02 Y=  0.2524093E-09 Z=  0.4639062E-02  Total=      0.0080415
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097670E+02         XY=  0.32842265E-01         XZ=  0.52195105E-01
                YY= -0.10161253E+02         YZ=  0.23195309E-01         ZZ= -0.12217046E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47828507E-01 Y= -0.26938928E-11 Z= -0.16412394E-05   Total=     0.04782851
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21486875E+01         XY=  0.45191390E+00         XZ=  0.40110739E+00
                YY=  0.12448681E+01         YZ= -0.15507491E-04         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9012935E-02 Y=  0.2522648E-09 Z=  0.4639087E-02  Total=      0.0101368
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073225E+02         XY=  0.45064673E-01         XZ=  0.63077710E-01
                YY= -0.10161253E+02         YZ=  0.23195434E-01         ZZ= -0.12217046E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93332888E-02 Y= -0.23021450E-11 Z= -0.12102605E-05   Total=     0.00933329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14212294E+01         XY=  0.88186799E-01         XZ=  0.79546705E-01
                YY=  0.12448637E+01         YZ= -0.11435327E-04         ZZ=  0.12448369E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8027671E-02 Y=  0.2521203E-09 Z=  0.4638890E-02  Total=      0.0092716
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083078E+02         XY=  0.40138355E-01         XZ=  0.58781900E-01
                YY= -0.10161253E+02         YZ=  0.23194450E-01         ZZ= -0.12217048E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32721548E-01 Y= -0.19664623E-11 Z= -0.14748433E-05   Total=     0.03272155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62650779E+00         XY= -0.30917382E+00         XZ= -0.27236430E+00
                YY=  0.12448617E+01         YZ= -0.13935269E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3986993E-02 Y=  0.2539263E-09 Z=  0.4638483E-02  Total=      0.0061165
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123485E+02         XY=  0.19934963E-01         XZ=  0.40939461E-01
                YY= -0.10161253E+02         YZ=  0.23192414E-01         ZZ= -0.12217053E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62330891E-01 Y= -0.18399000E-11 Z= -0.20489633E-05   Total=     0.06233089
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66975778E-01         XY= -0.58894157E+00         XZ= -0.52068735E+00
                YY=  0.12448645E+01         YZ= -0.19359916E-04         ZZ=  0.12448241E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1571787E-02 Y=  0.2593444E-09 Z=  0.4638169E-02  Total=      0.0048973
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179073E+02         XY= -0.78589361E-02         XZ=  0.16339746E-01
                YY= -0.10161253E+02         YZ=  0.23190845E-01         ZZ= -0.12217056E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68223291E-01 Y= -0.21750870E-11 Z= -0.21262257E-05   Total=     0.06822329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.44372209E-01         XY= -0.64461668E+00         XZ= -0.57088265E+00
                YY=  0.12448680E+01         YZ= -0.20089943E-04         ZZ=  0.12448260E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6533264E-02 Y=  0.2706139E-09 Z=  0.4638125E-02  Total=      0.0080122
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228688E+02         XY= -0.32666324E-01         XZ= -0.56550541E-02
                YY= -0.10161252E+02         YZ=  0.23190622E-01         ZZ= -0.12217056E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48151696E-01 Y= -0.31557424E-11 Z= -0.15914904E-05   Total=     0.04815170
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33492368E+00         XY= -0.45496759E+00         XZ= -0.40380688E+00
                YY=  0.12448670E+01         YZ= -0.15037435E-04         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9008974E-02 Y=  0.2719865E-09 Z=  0.4638156E-02  Total=      0.0101328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253445E+02         XY= -0.45044872E-01         XZ= -0.16673799E-01
                YY= -0.10161252E+02         YZ=  0.23190776E-01         ZZ= -0.12217055E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97503353E-02 Y= -0.46986961E-11 Z= -0.11715977E-05   Total=     0.00975034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10606004E+01         XY= -0.92127318E-01         XZ= -0.83014551E-01
                YY=  0.12448627E+01         YZ= -0.11070038E-04         ZZ=  0.12448368E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8056190E-02 Y=  0.2729979E-09 Z=  0.4637965E-02  Total=      0.0092959
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243918E+02         XY= -0.40280951E-01         XZ= -0.12521870E-01
                YY= -0.10161252E+02         YZ=  0.23189823E-01         ZZ= -0.12217057E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32368989E-01 Y= -0.63603808E-11 Z= -0.14288364E-05   Total=     0.03236899
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18565399E+01         XY=  0.30584262E+00         XZ=  0.26942305E+00
                YY=  0.12448607E+01         YZ= -0.13500605E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4036908E-02 Y=  0.2738648E-09 Z=  0.4637564E-02  Total=      0.0061485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203725E+02         XY= -0.20184543E-01         XZ=  0.52229603E-02
                YY= -0.10161252E+02         YZ=  0.23187817E-01         ZZ= -0.12217062E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62176754E-01 Y= -0.74403858E-11 Z= -0.19909271E-05   Total=     0.06217675
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24198284E+01         XY=  0.58748518E+00         XZ=  0.51937379E+00
                YY=  0.12448635E+01         YZ= -0.18811601E-04         ZZ=  0.12448242E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1519688E-02 Y=  0.2789216E-09 Z=  0.4637254E-02  Total=      0.0048799
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148159E+02         XY=  0.75984395E-02         XZ=  0.29809921E-01
                YY= -0.10161252E+02         YZ=  0.23186270E-01         ZZ= -0.12217065E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68326163E-01 Y= -0.72740694E-11 Z= -0.20715632E-05   Total=     0.06832616
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25360376E+01         XY=  0.64558868E+00         XZ=  0.57169082E+00
                YY=  0.12448669E+01         YZ= -0.19573501E-04         ZZ=  0.12448260E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6499027E-02 Y=  0.2888186E-09 Z=  0.4637214E-02  Total=      0.0079838
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098366E+02         XY=  0.32495131E-01         XZ=  0.51882260E-01
                YY= -0.10161252E+02         YZ=  0.23186069E-01         ZZ= -0.12217065E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48472487E-01 Y= -0.55906021E-11 Z= -0.15533029E-05   Total=     0.04847249
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21608553E+01         XY=  0.45799863E+00         XZ=  0.40642611E+00
                YY=  0.12448660E+01         YZ= -0.14676636E-04         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9005851E-02 Y=  0.2883852E-09 Z=  0.4637250E-02  Total=      0.0101296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073298E+02         XY=  0.45029252E-01         XZ=  0.63037259E-01
                YY= -0.10161252E+02         YZ=  0.23186247E-01         ZZ= -0.12217064E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10167071E-01 Y= -0.27472296E-11 Z= -0.11409244E-05   Total=     0.01016707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14369841E+01         XY=  0.96064899E-01         XZ=  0.86435466E-01
                YY=  0.12448618E+01         YZ= -0.10780199E-04         ZZ=  0.12448366E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8085600E-02 Y=  0.2892521E-09 Z=  0.4637065E-02  Total=      0.0093209
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082501E+02         XY=  0.40427999E-01         XZ=  0.59025628E-01
                YY= -0.10161252E+02         YZ=  0.23185324E-01         ZZ= -0.12217066E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32014856E-01 Y=  0.31048213E-12 Z= -0.13852256E-05   Total=     0.03201486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63986085E+00         XY= -0.30249655E+00         XZ= -0.26652309E+00
                YY=  0.12448598E+01         YZ= -0.13088486E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4087885E-02 Y=  0.2914193E-09 Z=  0.4636670E-02  Total=      0.0061814
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122478E+02         XY=  0.20439425E-01         XZ=  0.41371102E-01
                YY= -0.10161252E+02         YZ=  0.23183346E-01         ZZ= -0.12217071E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62020093E-01 Y=  0.23903396E-11 Z= -0.19292497E-05   Total=     0.06202009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72847348E-01         XY= -0.58600495E+00         XZ= -0.51811543E+00
                YY=  0.12448625E+01         YZ= -0.18228751E-04         ZZ=  0.12448244E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1466337E-02 Y=  0.2974875E-09 Z=  0.4636365E-02  Total=      0.0048627
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178020E+02         XY= -0.73316857E-02         XZ=  0.16791490E-01
                YY= -0.10161252E+02         YZ=  0.23181825E-01         ZZ= -0.12217074E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68426868E-01 Y=  0.25771250E-11 Z= -0.20086522E-05   Total=     0.06842687
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.48221028E-01         XY= -0.64654020E+00         XZ= -0.57256087E+00
                YY=  0.12448658E+01         YZ= -0.18978995E-04         ZZ=  0.12448262E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6463430E-02 Y=  0.3089015E-09 Z=  0.4636330E-02  Total=      0.0079543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227992E+02         XY= -0.32317150E-01         XZ= -0.53588123E-02
                YY= -0.10161252E+02         YZ=  0.23181648E-01         ZZ= -0.12217074E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48792654E-01 Y=  0.70371093E-12 Z= -0.15056039E-05   Total=     0.04879265
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32280968E+00         XY= -0.46102377E+00         XZ= -0.40910096E+00
                YY=  0.12448649E+01         YZ= -0.14225893E-04         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9001422E-02 Y=  0.3110688E-09 Z=  0.4636371E-02  Total=      0.0101253
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253372E+02         XY= -0.45007111E-01         XZ= -0.16649689E-01
                YY= -0.10161251E+02         YZ=  0.23181854E-01         ZZ= -0.12217073E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10585337E-01 Y= -0.24724400E-11 Z= -0.11036906E-05   Total=     0.01058534
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10448197E+01         XY= -0.10001694E+00         XZ= -0.89914509E-01
                YY=  0.12448608E+01         YZ= -0.10428389E-04         ZZ=  0.12448365E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8113931E-02 Y=  0.3115022E-09 Z=  0.4636193E-02  Total=      0.0093451
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244497E+02         XY= -0.40569658E-01         XZ= -0.12783149E-01
                YY= -0.10161251E+02         YZ=  0.23180962E-01         ZZ= -0.12217075E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31657232E-01 Y= -0.55089371E-11 Z= -0.13410733E-05   Total=     0.03165723
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18430882E+01         XY=  0.29911749E+00         XZ=  0.26353964E+00
                YY=  0.12448589E+01         YZ= -0.12671356E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4138134E-02 Y=  0.3100574E-09 Z=  0.4635803E-02  Total=      0.0062141
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204739E+02         XY= -0.20690671E-01         XZ=  0.47715362E-02
                YY= -0.10161251E+02         YZ=  0.23179012E-01         ZZ= -0.12217079E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61858901E-01 Y= -0.68663998E-11 Z= -0.18733532E-05   Total=     0.06185890
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24138203E+01         XY=  0.58448191E+00         XZ=  0.51674485E+00
                YY=  0.12448615E+01         YZ= -0.17700682E-04         ZZ=  0.12448245E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1413336E-02 Y=  0.3132360E-09 Z=  0.4635503E-02  Total=      0.0048462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149225E+02         XY=  0.70666765E-02         XZ=  0.29335988E-01
                YY= -0.10161251E+02         YZ=  0.23177513E-01         ZZ= -0.12217083E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68523307E-01 Y= -0.56078268E-11 Z= -0.19554367E-05   Total=     0.06852331
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25397614E+01         XY=  0.64745142E+00         XZ=  0.57331849E+00
                YY=  0.12448647E+01         YZ= -0.18476248E-04         ZZ=  0.12448262E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6427882E-02 Y=  0.3224828E-09 Z=  0.4635471E-02  Total=      0.0079250
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099079E+02         XY=  0.32139408E-01         XZ=  0.51562183E-01
                YY= -0.10161251E+02         YZ=  0.23177355E-01         ZZ= -0.12217082E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49110010E-01 Y= -0.18898696E-11 Z= -0.14678975E-05   Total=     0.04911001
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21729011E+01         XY=  0.46402235E+00         XZ=  0.41169492E+00
                YY=  0.12448640E+01         YZ= -0.13869639E-04         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8996893E-02 Y=  0.3209658E-09 Z=  0.4635517E-02  Total=      0.0101209
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073390E+02         XY=  0.44984462E-01         XZ=  0.62989081E-01
                YY= -0.10161251E+02         YZ=  0.23177585E-01         ZZ= -0.12217081E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11002877E-01 Y=  0.30040223E-11 Z= -0.10735285E-05   Total=     0.01100288
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14527771E+01         XY=  0.10396212E+00         XZ=  0.93345332E-01
                YY=  0.12448600E+01         YZ= -0.10143350E-04         ZZ=  0.12448362E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8142183E-02 Y=  0.3191597E-09 Z=  0.4635345E-02  Total=      0.0093692
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081937E+02         XY=  0.40710912E-01         XZ=  0.59264125E-01
                YY= -0.10161251E+02         YZ=  0.23176722E-01         ZZ= -0.12217083E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31298413E-01 Y=  0.71424490E-11 Z= -0.12990466E-05   Total=     0.03129841
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65339829E+00         XY= -0.29572714E+00         XZ= -0.26059764E+00
                YY=  0.12448580E+01         YZ= -0.12274152E-04         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4188445E-02 Y=  0.3196654E-09 Z=  0.4634961E-02  Total=      0.0062471
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121474E+02         XY=  0.20942223E-01         XZ=  0.41802064E-01
                YY= -0.10161251E+02         YZ=  0.23174801E-01         ZZ= -0.12217088E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61695487E-01 Y=  0.87551463E-11 Z= -0.18140631E-05   Total=     0.06169549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78979952E-01         XY= -0.58293787E+00         XZ= -0.51542783E+00
                YY=  0.12448605E+01         YZ= -0.17140340E-04         ZZ=  0.12448247E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1360101E-02 Y=  0.3257336E-09 Z=  0.4634665E-02  Total=      0.0048301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176960E+02         XY= -0.68005090E-02         XZ=  0.17247452E-01
                YY= -0.10161251E+02         YZ=  0.23173325E-01         ZZ= -0.12217091E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68617777E-01 Y=  0.70293047E-11 Z= -0.18944776E-05   Total=     0.06861778
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.51830352E-01         XY= -0.64834403E+00         XZ= -0.57413546E+00
                YY=  0.12448637E+01         YZ= -0.17900161E-04         ZZ=  0.12448264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6392006E-02 Y=  0.3359196E-09 Z=  0.4634638E-02  Total=      0.0078954
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227279E+02         XY= -0.31960034E-01         XZ= -0.50549455E-02
                YY= -0.10161251E+02         YZ=  0.23173190E-01         ZZ= -0.12217091E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49426832E-01 Y=  0.25281044E-11 Z= -0.14210701E-05   Total=     0.04942683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31082392E+00         XY= -0.46701588E+00         XZ= -0.41434220E+00
                YY=  0.12448630E+01         YZ= -0.13427146E-04         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8992092E-02 Y=  0.3354139E-09 Z=  0.4634690E-02  Total=      0.0101162
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253280E+02         XY= -0.44960461E-01         XZ= -0.16617303E-01
                YY= -0.10161251E+02         YZ=  0.23173448E-01         ZZ= -0.12217090E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11421947E-01 Y= -0.29816547E-11 Z= -0.10367145E-05   Total=     0.01142195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10290087E+01         XY= -0.10792176E+00         XZ= -0.96831900E-01
                YY=  0.12448591E+01         YZ= -0.97955569E-05         ZZ=  0.12448362E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8170386E-02 Y=  0.3350527E-09 Z=  0.4634523E-02  Total=      0.0093933
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245064E+02         XY= -0.40851931E-01         XZ= -0.13038481E-01
                YY= -0.10161251E+02         YZ=  0.23172615E-01         ZZ= -0.12217092E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30936153E-01 Y= -0.72487820E-11 Z= -0.12557235E-05   Total=     0.03093615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18294605E+01         XY=  0.29230429E+00         XZ=  0.25757569E+00
                YY=  0.12448572E+01         YZ= -0.11864928E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4239053E-02 Y=  0.3335356E-09 Z=  0.4634145E-02  Total=      0.0062805
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205750E+02         XY= -0.21195265E-01         XZ=  0.43216567E-02
                YY= -0.10161250E+02         YZ=  0.23170721E-01         ZZ= -0.12217096E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61527606E-01 Y= -0.85058929E-11 Z= -0.17592814E-05   Total=     0.06152761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24075582E+01         XY=  0.58135162E+00         XZ=  0.51400331E+00
                YY=  0.12448596E+01         YZ= -0.16622871E-04         ZZ=  0.12448249E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1306197E-02 Y=  0.3322353E-09 Z=  0.4633854E-02  Total=      0.0048144
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150298E+02         XY=  0.65309825E-02         XZ=  0.28858810E-01
                YY= -0.10161250E+02         YZ=  0.23169267E-01         ZZ= -0.12217099E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68708027E-01 Y= -0.62659525E-11 Z= -0.18418931E-05   Total=     0.06870803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25432505E+01         XY=  0.64919677E+00         XZ=  0.57484449E+00
                YY=  0.12448627E+01         YZ= -0.17403419E-04         ZZ=  0.12448264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6355162E-02 Y=  0.3419156E-09 Z=  0.4633831E-02  Total=      0.0078651
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099809E+02         XY=  0.31775809E-01         XZ=  0.51235510E-01
                YY= -0.10161250E+02         YZ=  0.23169151E-01         ZZ= -0.12217099E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49740862E-01 Y= -0.15823294E-11 Z= -0.13834797E-05   Total=     0.04974086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21848210E+01         XY=  0.46998303E+00         XZ=  0.41691173E+00
                YY=  0.12448620E+01         YZ= -0.13072001E-04         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8986175E-02 Y=  0.3422045E-09 Z=  0.4633887E-02  Total=      0.0101106
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073499E+02         XY=  0.44930872E-01         XZ=  0.62933672E-01
                YY= -0.10161250E+02         YZ=  0.23169432E-01         ZZ= -0.12217098E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11840305E-01 Y=  0.33618423E-11 Z= -0.10072796E-05   Total=     0.01184030
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14686009E+01         XY=  0.11187467E+00         XZ=  0.10027264E+00
                YY=  0.12448582E+01         YZ= -0.95173836E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8197496E-02 Y=  0.3438661E-09 Z=  0.4633726E-02  Total=      0.0094165
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081386E+02         XY=  0.40987477E-01         XZ=  0.59497714E-01
                YY= -0.10161250E+02         YZ=  0.23168628E-01         ZZ= -0.12217100E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30572659E-01 Y=  0.61818036E-11 Z= -0.12160192E-05   Total=     0.03057266
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66711173E+00         XY= -0.28886977E+00         XZ= -0.25459189E+00
                YY=  0.12448563E+01         YZ= -0.11489664E-04         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4288716E-02 Y=  0.3455999E-09 Z=  0.4633352E-02  Total=      0.0063136
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120473E+02         XY=  0.21443579E-01         XZ=  0.42232522E-01
                YY= -0.10161250E+02         YZ=  0.23166761E-01         ZZ= -0.12217104E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61357397E-01 Y=  0.53311051E-11 Z= -0.17033923E-05   Total=     0.06135740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85367450E-01         XY= -0.57974338E+00         XZ= -0.51262738E+00
                YY=  0.12448586E+01         YZ= -0.16094679E-04         ZZ=  0.12448251E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1253052E-02 Y=  0.3463945E-09 Z=  0.4633066E-02  Total=      0.0047995
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175891E+02         XY= -0.62652638E-02         XZ=  0.17707736E-01
                YY= -0.10161250E+02         YZ=  0.23165328E-01         ZZ= -0.12217107E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68796110E-01 Y=  0.80116077E-12 Z= -0.17838084E-05   Total=     0.06879611
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.55201939E-01         XY= -0.65002904E+00         XZ= -0.57560716E+00
                YY=  0.12448617E+01         YZ= -0.16854539E-04         ZZ=  0.12448266E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6318961E-02 Y=  0.3568694E-09 Z=  0.4633047E-02  Total=      0.0078355
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226551E+02         XY= -0.31594809E-01         XZ= -0.47433228E-02
                YY= -0.10161250E+02         YZ=  0.23165234E-01         ZZ= -0.12217107E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50054063E-01 Y= -0.58400050E-11 Z= -0.13380179E-05   Total=     0.05005406
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29896950E+00         XY= -0.47294235E+00         XZ= -0.41952911E+00
                YY=  0.12448611E+01         YZ= -0.12642485E-04         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8980928E-02 Y=  0.3572306E-09 Z=  0.4633109E-02  Total=      0.0101056
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253171E+02         XY= -0.44904642E-01         XZ= -0.16576401E-01
                YY= -0.10161250E+02         YZ=  0.23165542E-01         ZZ= -0.12217106E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12259818E-01 Y= -0.12098091E-10 Z= -0.97082912E-06   Total=     0.01225982
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10131739E+01         XY= -0.11583850E+00         XZ= -0.10376361E+00
                YY=  0.12448574E+01         YZ= -0.91731066E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8225466E-02 Y=  0.3566527E-09 Z=  0.4632954E-02  Total=      0.0094405
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245616E+02         XY= -0.41127332E-01         XZ= -0.13287476E-01
                YY= -0.10161250E+02         YZ=  0.23164768E-01         ZZ= -0.12217107E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30206146E-01 Y= -0.15620123E-10 Z= -0.11730979E-05   Total=     0.03020615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18156641E+01         XY=  0.28540672E+00         XZ=  0.25153474E+00
                YY=  0.12448555E+01         YZ= -0.11084299E-04         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4339549E-02 Y=  0.3554246E-09 Z=  0.4632586E-02  Total=      0.0063476
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206757E+02         XY= -0.21697747E-01         XZ=  0.38738440E-02
                YY= -0.10161250E+02         YZ=  0.23162928E-01         ZZ= -0.12217112E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61183156E-01 Y= -0.15208478E-10 Z= -0.16492834E-05   Total=     0.06118316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24010476E+01         XY=  0.57809704E+00         XZ=  0.51115180E+00
                YY=  0.12448578E+01         YZ= -0.15583596E-04         ZZ=  0.12448253E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1198401E-02 Y=  0.3547744E-09 Z=  0.4632303E-02  Total=      0.0047848
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151378E+02         XY=  0.59920019E-02         XZ=  0.28378977E-01
                YY= -0.10161250E+02         YZ=  0.23161515E-01         ZZ= -0.12217115E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68880401E-01 Y= -0.11339876E-10 Z= -0.17316642E-05   Total=     0.06888040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25465063E+01         XY=  0.65082546E+00         XZ=  0.57626974E+00
                YY=  0.12448608E+01         YZ= -0.16361950E-04         ZZ=  0.12448267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6280990E-02 Y=  0.3651771E-09 Z=  0.4632288E-02  Total=      0.0078044
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100552E+02         XY=  0.31404949E-01         XZ=  0.50902816E-01
                YY= -0.10161250E+02         YZ=  0.23161440E-01         ZZ= -0.12217114E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50364893E-01 Y= -0.59547602E-11 Z= -0.13006241E-05   Total=     0.05036489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21966120E+01         XY=  0.47587927E+00         XZ=  0.42207558E+00
                YY=  0.12448602E+01         YZ= -0.12289166E-04         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8973799E-02 Y=  0.3661162E-09 Z=  0.4632355E-02  Total=      0.0100989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073624E+02         XY=  0.44868991E-01         XZ=  0.62871522E-01
                YY= -0.10161249E+02         YZ=  0.23161771E-01         ZZ= -0.12217113E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12679052E-01 Y= -0.16102286E-11 Z= -0.94229268E-06   Total=     0.01267905
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14844497E+01         XY=  0.11979968E+00         XZ=  0.10721513E+00
                YY=  0.12448566E+01         YZ= -0.89033893E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8251614E-02 Y=  0.3664774E-09 Z=  0.4632205E-02  Total=      0.0094629
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080846E+02         XY=  0.41258066E-01         XZ=  0.59726771E-01
                YY= -0.10161249E+02         YZ=  0.23161025E-01         ZZ= -0.12217115E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29837928E-01 Y= -0.36560224E-12 Z= -0.11358287E-05   Total=     0.02983793
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68099491E+00         XY= -0.28192756E+00         XZ= -0.24850834E+00
                YY=  0.12448547E+01         YZ= -0.10732030E-04         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4388750E-02 Y=  0.3671276E-09 Z=  0.4631842E-02  Total=      0.0063808
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119475E+02         XY=  0.21943746E-01         XZ=  0.42662757E-01
                YY= -0.10161249E+02         YZ=  0.23159210E-01         ZZ= -0.12217119E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61006060E-01 Y= -0.28948236E-11 Z= -0.15968968E-05   Total=     0.06100606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92005385E-01         XY= -0.57642373E+00         XZ= -0.50971584E+00
                YY=  0.12448569E+01         YZ= -0.15088514E-04         ZZ=  0.12448255E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1145151E-02 Y=  0.3687169E-09 Z=  0.4631564E-02  Total=      0.0047710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174814E+02         XY= -0.57257559E-02         XZ=  0.18172577E-01
                YY= -0.10161249E+02         YZ=  0.23157818E-01         ZZ= -0.12217122E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68961941E-01 Y= -0.82101371E-11 Z= -0.16767550E-05   Total=     0.06896194
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.58337160E-01         XY= -0.65159591E+00         XZ= -0.57697649E+00
                YY=  0.12448599E+01         YZ= -0.15843109E-04         ZZ=  0.12448269E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6244253E-02 Y=  0.3791196E-09 Z=  0.4631553E-02  Total=      0.0077744
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225805E+02         XY= -0.31221269E-01         XZ= -0.44236981E-02
                YY= -0.10161249E+02         YZ=  0.23157762E-01         ZZ= -0.12217122E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50674279E-01 Y= -0.14113912E-10 Z= -0.12572432E-05   Total=     0.05067428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28724773E+00         XY= -0.47880254E+00         XZ= -0.42466121E+00
                YY=  0.12448594E+01         YZ= -0.11879346E-04         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8967878E-02 Y=  0.3791196E-09 Z=  0.4631624E-02  Total=      0.0100933
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253042E+02         XY= -0.44839393E-01         XZ= -0.16526697E-01
                YY= -0.10161249E+02         YZ=  0.23158119E-01         ZZ= -0.12217120E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13098839E-01 Y= -0.18168439E-10 Z= -0.90742377E-06   Total=     0.01309884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99731754E+00         XY= -0.12376609E+00         XZ= -0.11070906E+00
                YY=  0.12448558E+01         YZ= -0.85740654E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8279110E-02 Y=  0.3775303E-09 Z=  0.4631481E-02  Total=      0.0094865
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246154E+02         XY= -0.41395554E-01         XZ= -0.13529827E-01
                YY= -0.10161249E+02         YZ=  0.23157403E-01         ZZ= -0.12217122E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29467229E-01 Y= -0.18755501E-10 Z= -0.10949632E-05   Total=     0.02946723
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18016994E+01         XY=  0.27842496E+00         XZ=  0.24541635E+00
                YY=  0.12448540E+01         YZ= -0.10346061E-04         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4439566E-02 Y=  0.3759410E-09 Z=  0.4631123E-02  Total=      0.0064154
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207759E+02         XY= -0.22197830E-01         XZ=  0.34283612E-02
                YY= -0.10161249E+02         YZ=  0.23155614E-01         ZZ= -0.12217126E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60825365E-01 Y= -0.15753880E-10 Z= -0.15453571E-05   Total=     0.06082537
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23942850E+01         XY=  0.57471641E+00         XZ=  0.50818799E+00
                YY=  0.12448561E+01         YZ= -0.14601642E-04         ZZ=  0.12448256E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1089982E-02 Y=  0.3751463E-09 Z=  0.4630848E-02  Total=      0.0047574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152463E+02         XY=  0.54499084E-02         XZ=  0.27896617E-01
                YY= -0.10161249E+02         YZ=  0.23154240E-01         ZZ= -0.12217129E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69040005E-01 Y= -0.10549060E-10 Z= -0.16269170E-05   Total=     0.06904000
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25495210E+01         XY=  0.65233351E+00         XZ=  0.57758985E+00
                YY=  0.12448590E+01         YZ= -0.15372228E-04         ZZ=  0.12448270E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6205360E-02 Y=  0.3850433E-09 Z=  0.4630841E-02  Total=      0.0077428
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101310E+02         XY=  0.31026800E-01         XZ=  0.50564017E-01
                YY= -0.10161249E+02         YZ=  0.23154202E-01         ZZ= -0.12217129E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50981512E-01 Y= -0.53870295E-11 Z= -0.12215939E-05   Total=     0.05098151
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22082631E+01         XY=  0.48170547E+00         XZ=  0.42718074E+00
                YY=  0.12448585E+01         YZ= -0.11542436E-04         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8959709E-02 Y=  0.3866326E-09 Z=  0.4630917E-02  Total=      0.0100857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073767E+02         XY=  0.44798544E-01         XZ=  0.62802302E-01
                YY= -0.10161249E+02         YZ=  0.23154581E-01         ZZ= -0.12217128E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13518506E-01 Y= -0.23776484E-11 Z= -0.88083349E-06   Total=     0.01351851
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15003119E+01         XY=  0.12773137E+00         XZ=  0.11416717E+00
                YY=  0.12448551E+01         YZ= -0.83226924E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8304437E-02 Y=  0.3869216E-09 Z=  0.4630779E-02  Total=      0.0095083
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080319E+02         XY=  0.41522185E-01         XZ=  0.59950761E-01
                YY= -0.10161249E+02         YZ=  0.23153891E-01         ZZ= -0.12217129E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29094668E-01 Y= -0.25897862E-11 Z= -0.10606609E-05   Total=     0.02909467
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69503937E+00         XY= -0.27490477E+00         XZ= -0.24235091E+00
                YY=  0.12448533E+01         YZ= -0.10021817E-04         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4488423E-02 Y=  0.3860547E-09 Z=  0.4630426E-02  Total=      0.0064488
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118480E+02         XY=  0.22442111E-01         XZ=  0.43092131E-01
                YY= -0.10161249E+02         YZ=  0.23152126E-01         ZZ= -0.12217133E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60641614E-01 Y= -0.56410643E-11 Z= -0.14965853E-05   Total=     0.06064161
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98891139E-01         XY= -0.57298022E+00         XZ= -0.50669413E+00
                YY=  0.12448553E+01         YZ= -0.14140731E-04         ZZ=  0.12448258E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1036515E-02 Y=  0.3859102E-09 Z=  0.4630155E-02  Total=      0.0047448
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173729E+02         XY= -0.51825776E-02         XZ=  0.18641377E-01
                YY= -0.10161249E+02         YZ=  0.23150771E-01         ZZ= -0.12217136E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69115042E-01 Y= -0.99388053E-11 Z= -0.15749597E-05   Total=     0.06911504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.61231716E-01         XY= -0.65304250E+00         XZ= -0.57824093E+00
                YY=  0.12448582E+01         YZ= -0.14881298E-04         ZZ=  0.12448271E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6167968E-02 Y=  0.3963129E-09 Z=  0.4630151E-02  Total=      0.0077125
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225044E+02         XY= -0.30839844E-01         XZ= -0.40964951E-02
                YY= -0.10161248E+02         YZ=  0.23150751E-01         ZZ= -0.12217136E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51286941E-01 Y= -0.13439814E-10 Z= -0.11797516E-05   Total=     0.05128694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27566882E+00         XY= -0.48459136E+00         XZ= -0.42973312E+00
                YY=  0.12448577E+01         YZ= -0.11147152E-04         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8952977E-02 Y=  0.3962406E-09 Z=  0.4630232E-02  Total=      0.0100794
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252894E+02         XY= -0.44764886E-01         XZ= -0.16468347E-01
                YY= -0.10161248E+02         YZ=  0.23151156E-01         ZZ= -0.12217134E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13938304E-01 Y= -0.14568210E-10 Z= -0.84672179E-06   Total=     0.01393830
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98145284E+00         XY= -0.13169788E+00         XZ= -0.11766136E+00
                YY=  0.12448544E+01         YZ= -0.80004857E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8331298E-02 Y=  0.3940012E-09 Z=  0.4630099E-02  Total=      0.0095314
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246678E+02         XY= -0.41656491E-01         XZ= -0.13765398E-01
                YY= -0.10161248E+02         YZ=  0.23150495E-01         ZZ= -0.12217136E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28720083E-01 Y= -0.12879572E-10 Z= -0.10209253E-05   Total=     0.02872008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17875793E+01         XY=  0.27136545E+00         XZ=  0.23922716E+00
                YY=  0.12448526E+01         YZ= -0.96464568E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4539035E-02 Y=  0.3927008E-09 Z=  0.4629751E-02  Total=      0.0064836
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208755E+02         XY= -0.22695176E-01         XZ=  0.29855832E-02
                YY= -0.10161248E+02         YZ=  0.23148755E-01         ZZ= -0.12217140E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60454724E-01 Y= -0.91829558E-11 Z= -0.14469059E-05   Total=     0.06045472
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23872797E+01         XY=  0.57121436E+00         XZ=  0.50511676E+00
                YY=  0.12448545E+01         YZ= -0.13671359E-04         ZZ=  0.12448261E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9810328E-03 Y=  0.3933510E-09 Z=  0.4629484E-02  Total=      0.0047323
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153554E+02         XY=  0.49051621E-02         XZ=  0.27412241E-01
                YY= -0.10161248E+02         YZ=  0.23147418E-01         ZZ= -0.12217143E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69187042E-01 Y= -0.51004605E-11 Z= -0.15272235E-05   Total=     0.06918704
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25522982E+01         XY=  0.65372280E+00         XZ=  0.57880700E+00
                YY=  0.12448573E+01         YZ= -0.14430217E-04         ZZ=  0.12448273E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6128364E-02 Y=  0.4023089E-09 Z=  0.4629483E-02  Total=      0.0076804
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102081E+02         XY=  0.30641819E-01         XZ=  0.50219634E-01
                YY= -0.10161248E+02         YZ=  0.23147413E-01         ZZ= -0.12217142E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51590627E-01 Y= -0.22907271E-11 Z= -0.11462212E-05   Total=     0.05159063
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22197725E+01         XY=  0.48746078E+00         XZ=  0.43222664E+00
                YY=  0.12448569E+01         YZ= -0.10830244E-04         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8943977E-02 Y=  0.4026701E-09 Z=  0.4629568E-02  Total=      0.0100711
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073925E+02         XY=  0.44719884E-01         XZ=  0.62726440E-01
                YY= -0.10161248E+02         YZ=  0.23147839E-01         ZZ= -0.12217141E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14358360E-01 Y= -0.17119491E-11 Z= -0.82287171E-06   Total=     0.01435836
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15161818E+01         XY=  0.13566684E+00         XZ=  0.12112608E+00
                YY=  0.12448537E+01         YZ= -0.77750296E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8356004E-02 Y=  0.4036814E-09 Z=  0.4629441E-02  Total=      0.0095527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079805E+02         XY=  0.41780017E-01         XZ=  0.60169950E-01
                YY= -0.10161248E+02         YZ=  0.23147204E-01         ZZ= -0.12217142E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28343284E-01 Y= -0.32499572E-11 Z= -0.99056789E-06   Total=     0.02834328
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70923743E+00         XY= -0.26780522E+00         XZ= -0.23612337E+00
                YY=  0.12448519E+01         YZ= -0.93595420E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4587736E-02 Y=  0.4037537E-09 Z=  0.4629098E-02  Total=      0.0065174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117488E+02         XY=  0.22938676E-01         XZ=  0.43520727E-01
                YY= -0.10161248E+02         YZ=  0.23145486E-01         ZZ= -0.12217146E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60264453E-01 Y= -0.58661041E-11 Z= -0.14027829E-05   Total=     0.06026445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10601729E+00         XY= -0.56941656E+00         XZ= -0.50356615E+00
                YY=  0.12448538E+01         YZ= -0.13254431E-04         ZZ=  0.12448262E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9271756E-03 Y=  0.4044038E-09 Z=  0.4628833E-02  Total=      0.0047208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172637E+02         XY= -0.46358801E-02         XZ=  0.19114051E-01
                YY= -0.10161248E+02         YZ=  0.23144165E-01         ZZ= -0.12217149E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69255723E-01 Y= -0.81549619E-11 Z= -0.14793507E-05   Total=     0.06925572
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.63891486E-01         XY= -0.65437175E+00         XZ= -0.57940391E+00
                YY=  0.12448565E+01         YZ= -0.13977912E-04         ZZ=  0.12448274E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6090159E-02 Y=  0.4144453E-09 Z=  0.4628836E-02  Total=      0.0076496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224267E+02         XY= -0.30450797E-01         XZ= -0.37619305E-02
                YY= -0.10161248E+02         YZ=  0.23144177E-01         ZZ= -0.12217149E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51892265E-01 Y= -0.90252791E-11 Z= -0.11072857E-05   Total=     0.05189227
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26422865E+00         XY= -0.49031085E+00         XZ= -0.43474758E+00
                YY=  0.12448562E+01         YZ= -0.10462413E-04         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8936291E-02 Y=  0.4143731E-09 Z=  0.4628926E-02  Total=      0.0100640
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252729E+02         XY= -0.44681456E-01         XZ= -0.16401669E-01
                YY= -0.10161248E+02         YZ=  0.23144626E-01         ZZ= -0.12217147E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14778367E-01 Y= -0.81739250E-11 Z= -0.79121568E-06   Total=     0.01477837
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96557690E+00         XY= -0.13963534E+00         XZ= -0.12462277E+00
                YY=  0.12448530E+01         YZ= -0.74759782E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8382105E-02 Y=  0.4135784E-09 Z=  0.4628804E-02  Total=      0.0095753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247187E+02         XY= -0.41910528E-01         XZ= -0.13994595E-01
                YY= -0.10161248E+02         YZ=  0.23144019E-01         ZZ= -0.12217149E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27964568E-01 Y= -0.61447446E-11 Z= -0.95392150E-06   Total=     0.02796457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17733011E+01         XY=  0.26422687E+00         XZ=  0.23296510E+00
                YY=  0.12448512E+01         YZ= -0.90133089E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4638045E-02 Y=  0.4120614E-09 Z=  0.4628466E-02  Total=      0.0065524
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209747E+02         XY= -0.23190226E-01         XZ=  0.25450233E-02
                YY= -0.10161248E+02         YZ=  0.23142326E-01         ZZ= -0.12217153E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60071080E-01 Y= -0.39699279E-11 Z= -0.13568768E-05   Total=     0.06007108
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23800287E+01         XY=  0.56758944E+00         XZ=  0.50193610E+00
                YY=  0.12448530E+01         YZ= -0.12820667E-04         ZZ=  0.12448264E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8714530E-03 Y=  0.4116279E-09 Z=  0.4628204E-02  Total=      0.0047095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154652E+02         XY=  0.43572630E-02         XZ=  0.26925286E-01
                YY= -0.10161248E+02         YZ=  0.23141020E-01         ZZ= -0.12217156E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69321356E-01 Y= -0.26035446E-11 Z= -0.14350680E-05   Total=     0.06932136
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25548352E+01         XY=  0.65499189E+00         XZ=  0.57991948E+00
                YY=  0.12448558E+01         YZ= -0.13559456E-04         ZZ=  0.12448275E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6049891E-02 Y=  0.4214527E-09 Z=  0.4628210E-02  Total=      0.0076172
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102867E+02         XY=  0.30249455E-01         XZ=  0.49869051E-01
                YY= -0.10161248E+02         YZ=  0.23141046E-01         ZZ= -0.12217155E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52192132E-01 Y= -0.24413844E-11 Z= -0.10761259E-05   Total=     0.05219213
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22311381E+01         XY=  0.49314418E+00         XZ=  0.43721237E+00
                YY=  0.12448554E+01         YZ= -0.10167943E-04         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8926488E-02 Y=  0.4226085E-09 Z=  0.4628304E-02  Total=      0.0100550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074102E+02         XY=  0.44632438E-01         XZ=  0.62643310E-01
                YY= -0.10161247E+02         YZ=  0.23141515E-01         ZZ= -0.12217154E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15198630E-01 Y= -0.31678409E-11 Z= -0.76899373E-06   Total=     0.01519863
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15320595E+01         XY=  0.14360624E+00         XZ=  0.12809239E+00
                YY=  0.12448524E+01         YZ= -0.72659709E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8406207E-02 Y=  0.4241978E-09 Z=  0.4628187E-02  Total=      0.0095961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079305E+02         XY=  0.42031033E-01         XZ=  0.60383776E-01
                YY= -0.10161247E+02         YZ=  0.23140933E-01         ZZ= -0.12217155E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27583578E-01 Y= -0.39868311E-11 Z= -0.92526087E-06   Total=     0.02758358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72359279E+00         XY= -0.26062704E+00         XZ= -0.22982327E+00
                YY=  0.12448506E+01         YZ= -0.87424880E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4686608E-02 Y=  0.4242701E-09 Z=  0.4627853E-02  Total=      0.0065864
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116501E+02         XY=  0.23433037E-01         XZ=  0.43948135E-01
                YY= -0.10161247E+02         YZ=  0.23139261E-01         ZZ= -0.12217159E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59874173E-01 Y= -0.41017902E-11 Z= -0.13146757E-05   Total=     0.05987417
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11339138E+00         XY= -0.56572895E+00         XZ= -0.50032746E+00
                YY=  0.12448523E+01         YZ= -0.12421926E-04         ZZ=  0.12448265E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8171719E-03 Y=  0.4259316E-09 Z=  0.4627594E-02  Total=      0.0046992
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171538E+02         XY= -0.40858614E-02         XZ=  0.19590421E-01
                YY= -0.10161247E+02         YZ=  0.23137970E-01         ZZ= -0.12217162E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69383417E-01 Y= -0.31749084E-11 Z= -0.13888212E-05   Total=     0.06938342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.66305775E-01         XY= -0.65557828E+00         XZ= -0.58045942E+00
                YY=  0.12448550E+01         YZ= -0.13122492E-04         ZZ=  0.12448277E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6010813E-02 Y=  0.4374901E-09 Z=  0.4627603E-02  Total=      0.0075858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223475E+02         XY= -0.30054067E-01         XZ= -0.34199060E-02
                YY= -0.10161247E+02         YZ=  0.23138012E-01         ZZ= -0.12217161E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52489609E-01 Y= -0.15195433E-11 Z= -0.10383706E-05   Total=     0.05248961
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25293932E+00         XY= -0.49595493E+00         XZ= -0.43969802E+00
                YY=  0.12448547E+01         YZ= -0.98111993E-05         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8917756E-02 Y=  0.4392239E-09 Z=  0.4627701E-02  Total=      0.0100470
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252545E+02         XY= -0.44588781E-01         XZ= -0.16326290E-01
                YY= -0.10161247E+02         YZ=  0.23138504E-01         ZZ= -0.12217160E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15618439E-01 Y=  0.80350188E-13 Z= -0.73883515E-06   Total=     0.01561844
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94970083E+00         XY= -0.14757287E+00         XZ= -0.13158739E+00
                YY=  0.12448517E+01         YZ= -0.69809862E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8431426E-02 Y=  0.4393684E-09 Z=  0.4627590E-02  Total=      0.0096179
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247682E+02         XY= -0.42157131E-01         XZ= -0.14216825E-01
                YY= -0.10161247E+02         YZ=  0.23137950E-01         ZZ= -0.12217161E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27201097E-01 Y=  0.82320913E-12 Z= -0.89125947E-06   Total=     0.02720110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17588726E+01         XY=  0.25701312E+00         XZ=  0.22663421E+00
                YY=  0.12448499E+01         YZ= -0.84211812E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4736465E-02 Y=  0.4392961E-09 Z=  0.4627260E-02  Total=      0.0066216
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210732E+02         XY= -0.23682328E-01         XZ=  0.21073895E-02
                YY= -0.10161247E+02         YZ=  0.23136300E-01         ZZ= -0.12217165E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59674571E-01 Y=  0.37315153E-12 Z= -0.12723171E-05   Total=     0.05967457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23725347E+01         XY=  0.56384298E+00         XZ=  0.49864730E+00
                YY=  0.12448516E+01         YZ= -0.12021658E-04         ZZ=  0.12448267E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7613716E-03 Y=  0.4404520E-09 Z=  0.4627005E-02  Total=      0.0046892
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155754E+02         XY=  0.38068562E-02         XZ=  0.26436445E-01
                YY= -0.10161247E+02         YZ=  0.23135023E-01         ZZ= -0.12217168E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69442777E-01 Y= -0.90080149E-12 Z= -0.13478147E-05   Total=     0.06944278
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25571285E+01         XY=  0.65613915E+00         XZ=  0.58092548E+00
                YY=  0.12448542E+01         YZ= -0.12735018E-04         ZZ=  0.12448278E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5970045E-02 Y=  0.4492654E-09 Z=  0.4627016E-02  Total=      0.0075532
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103667E+02         XY=  0.29850222E-01         XZ=  0.49512814E-01
                YY= -0.10161247E+02         YZ=  0.23135077E-01         ZZ= -0.12217167E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52785574E-01 Y= -0.20727188E-11 Z= -0.10094415E-05   Total=     0.05278557
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22423514E+01         XY=  0.49875140E+00         XZ=  0.44213331E+00
                YY=  0.12448540E+01         YZ= -0.95378639E-05         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8907298E-02 Y=  0.4490486E-09 Z=  0.4627118E-02  Total=      0.0100374
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074295E+02         XY=  0.44536488E-01         XZ=  0.62553210E-01
                YY= -0.10161247E+02         YZ=  0.23135588E-01         ZZ= -0.12217166E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16038662E-01 Y= -0.21399097E-11 Z= -0.71823143E-06   Total=     0.01603866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15479329E+01         XY=  0.15154339E+00         XZ=  0.13505949E+00
                YY=  0.12448511E+01         YZ= -0.67863282E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8455046E-02 Y=  0.4497711E-09 Z=  0.4627012E-02  Total=      0.0096383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078818E+02         XY=  0.42275229E-01         XZ=  0.60592231E-01
                YY= -0.10161247E+02         YZ=  0.23135058E-01         ZZ= -0.12217167E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26816286E-01 Y= -0.59160470E-12 Z= -0.86452391E-06   Total=     0.02681629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73809156E+00         XY= -0.25337718E+00         XZ= -0.22345804E+00
                YY=  0.12448493E+01         YZ= -0.81685787E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4784980E-02 Y=  0.4508547E-09 Z=  0.4626686E-02  Total=      0.0066560
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115518E+02         XY=  0.23924900E-01         XZ=  0.44374034E-01
                YY= -0.10161247E+02         YZ=  0.23133428E-01         ZZ= -0.12217171E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59471468E-01 Y=  0.22312942E-11 Z= -0.12325237E-05   Total=     0.05947147
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12100033E+00         XY= -0.56192394E+00         XZ= -0.49698510E+00
                YY=  0.12448510E+01         YZ= -0.11645649E-04         ZZ=  0.12448268E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7066122E-03 Y=  0.4537443E-09 Z=  0.4626433E-02  Total=      0.0046801
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170434E+02         XY= -0.35330629E-02         XZ=  0.20069896E-01
                YY= -0.10161247E+02         YZ=  0.23132165E-01         ZZ= -0.12217173E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69498666E-01 Y=  0.52044213E-11 Z= -0.13037957E-05   Total=     0.06949867
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.68484837E-01         XY= -0.65666723E+00         XZ= -0.58141311E+00
                YY=  0.12448535E+01         YZ= -0.12319047E-04         ZZ=  0.12448279E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5930073E-02 Y=  0.4656640E-09 Z=  0.4626447E-02  Total=      0.0075213
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222669E+02         XY= -0.29650365E-01         XZ= -0.30712024E-02
                YY= -0.10161247E+02         YZ=  0.23132233E-01         ZZ= -0.12217173E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53079297E-01 Y=  0.69138572E-11 Z= -0.97331061E-06   Total=     0.05307930
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24179472E+00         XY= -0.50152668E+00         XZ= -0.44458800E+00
                YY=  0.12448533E+01         YZ= -0.91964013E-05         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8897529E-02 Y=  0.4679035E-09 Z=  0.4626554E-02  Total=      0.0100285
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252344E+02         XY= -0.44487647E-01         XZ= -0.16243086E-01
                YY= -0.10161247E+02         YZ=  0.23132767E-01         ZZ= -0.12217171E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16458603E-01 Y=  0.63578232E-11 Z= -0.68959051E-06   Total=     0.01645860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93382307E+00         XY= -0.15551126E+00         XZ= -0.13855642E+00
                YY=  0.12448504E+01         YZ= -0.65156397E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8479414E-02 Y=  0.4681202E-09 Z=  0.4626453E-02  Total=      0.0096594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248163E+02         XY= -0.42397072E-01         XZ= -0.14432966E-01
                YY= -0.10161247E+02         YZ=  0.23132263E-01         ZZ= -0.12217172E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26429808E-01 Y=  0.35062405E-11 Z= -0.83264923E-06   Total=     0.02642981
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17442964E+01         XY=  0.24972549E+00         XZ=  0.22023548E+00
                YY=  0.12448487E+01         YZ= -0.78673730E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4834433E-02 Y=  0.4686259E-09 Z=  0.4626131E-02  Total=      0.0066913
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211713E+02         XY= -0.24172168E-01         XZ=  0.16718829E-02
                YY= -0.10161247E+02         YZ=  0.23130655E-01         ZZ= -0.12217176E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59265505E-01 Y= -0.57691852E-12 Z= -0.11927178E-05   Total=     0.05926551
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23648034E+01         XY=  0.55997787E+00         XZ=  0.49525314E+00
                YY=  0.12448503E+01         YZ= -0.11269563E-04         ZZ=  0.12448270E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6506785E-03 Y=  0.4688426E-09 Z=  0.4625881E-02  Total=      0.0046714
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156862E+02         XY=  0.32533904E-02         XZ=  0.25945056E-01
                YY= -0.10161246E+02         YZ=  0.23129404E-01         ZZ= -0.12217179E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69551717E-01 Y= -0.41499756E-11 Z= -0.12647313E-05   Total=     0.06955172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25591860E+01         XY=  0.65716849E+00         XZ=  0.58182905E+00
                YY=  0.12448528E+01         YZ= -0.11950022E-04         ZZ=  0.12448280E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5888746E-02 Y=  0.4767891E-09 Z=  0.4625897E-02  Total=      0.0074884
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104481E+02         XY=  0.29443726E-01         XZ=  0.49150435E-01
                YY= -0.10161246E+02         YZ=  0.23129484E-01         ZZ= -0.12217178E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53371415E-01 Y= -0.55842817E-11 Z= -0.94504842E-06   Total=     0.05337142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22534211E+01         XY=  0.50428679E+00         XZ=  0.44699428E+00
                YY=  0.12448526E+01         YZ= -0.89294684E-05         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8886363E-02 Y=  0.4761389E-09 Z=  0.4626007E-02  Total=      0.0100184
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074505E+02         XY=  0.44431812E-01         XZ=  0.62455847E-01
                YY= -0.10161246E+02         YZ=  0.23130035E-01         ZZ= -0.12217177E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16878927E-01 Y= -0.41696521E-11 Z= -0.66890738E-06   Total=     0.01687893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15638106E+01         XY=  0.15948275E+00         XZ=  0.14203256E+00
                YY=  0.12448499E+01         YZ= -0.63203020E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8502511E-02 Y=  0.4762112E-09 Z=  0.4625911E-02  Total=      0.0096794
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078344E+02         XY=  0.42512553E-01         XZ=  0.60795228E-01
                YY= -0.10161246E+02         YZ=  0.23129555E-01         ZZ= -0.12217178E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26040947E-01 Y= -0.53223310E-12 Z= -0.80617978E-06   Total=     0.02604095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75274243E+00         XY= -0.24605129E+00         XZ= -0.21702246E+00
                YY=  0.12448481E+01         YZ= -0.76173077E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4882877E-02 Y=  0.4781617E-09 Z=  0.4625594E-02  Total=      0.0067260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114540E+02         XY=  0.24414384E-01         XZ=  0.44798547E-01
                YY= -0.10161246E+02         YZ=  0.23127968E-01         ZZ= -0.12217181E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59055895E-01 Y=  0.35591469E-11 Z= -0.11539859E-05   Total=     0.05905590
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12885251E+00         XY= -0.55799734E+00         XZ= -0.49353401E+00
                YY=  0.12448497E+01         YZ= -0.10903565E-04         ZZ=  0.12448271E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5954390E-03 Y=  0.4806901E-09 Z=  0.4625346E-02  Total=      0.0046635
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169324E+02         XY= -0.29771971E-02         XZ=  0.20552805E-01
                YY= -0.10161246E+02         YZ=  0.23126730E-01         ZZ= -0.12217184E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69601057E-01 Y=  0.59520044E-11 Z= -0.12221605E-05   Total=     0.06960106
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.70420838E-01         XY= -0.65763468E+00         XZ= -0.58226040E+00
                YY=  0.12448521E+01         YZ= -0.11547702E-04         ZZ=  0.12448282E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5847849E-02 Y=  0.4907316E-09 Z=  0.4625365E-02  Total=      0.0074560
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221848E+02         XY= -0.29239245E-01         XZ= -0.27153094E-02
                YY= -0.10161246E+02         YZ=  0.23126822E-01         ZZ= -0.12217184E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53660975E-01 Y=  0.51060759E-11 Z= -0.91038496E-06   Total=     0.05366098
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23080157E+00         XY= -0.50702274E+00         XZ= -0.44941384E+00
                YY=  0.12448520E+01         YZ= -0.86018575E-05         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8875495E-02 Y=  0.4920319E-09 Z=  0.4625479E-02  Total=      0.0100085
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252125E+02         XY= -0.44377479E-01         XZ= -0.16151415E-01
                YY= -0.10161246E+02         YZ=  0.23127395E-01         ZZ= -0.12217182E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17298619E-01 Y=  0.86744252E-12 Z= -0.64203989E-06   Total=     0.01729862
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91794815E+00         XY= -0.16344826E+00         XZ= -0.14552775E+00
                YY=  0.12448493E+01         YZ= -0.60663999E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8525942E-02 Y=  0.4927543E-09 Z=  0.4625388E-02  Total=      0.0096998
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248629E+02         XY= -0.42629710E-01         XZ= -0.14642323E-01
                YY= -0.10161246E+02         YZ=  0.23126940E-01         ZZ= -0.12217183E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25650747E-01 Y= -0.53628503E-11 Z= -0.77673779E-06   Total=     0.02565075
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17295734E+01         XY=  0.24236443E+00         XZ=  0.21376882E+00
                YY=  0.12448476E+01         YZ= -0.73391631E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4931826E-02 Y=  0.4932600E-09 Z=  0.4625075E-02  Total=      0.0067612
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212688E+02         XY= -0.24659132E-01         XZ=  0.12391406E-02
                YY= -0.10161246E+02         YZ=  0.23125373E-01         ZZ= -0.12217187E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58843669E-01 Y= -0.11173434E-10 Z= -0.11167765E-05   Total=     0.05884367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23568309E+01         XY=  0.55599209E+00         XZ=  0.49175075E+00
                YY=  0.12448491E+01         YZ= -0.10552113E-04         ZZ=  0.12448272E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5394675E-03 Y=  0.4929710E-09 Z=  0.4624830E-02  Total=      0.0046562
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157975E+02         XY=  0.26973354E-02         XZ=  0.25451571E-01
                YY= -0.10161246E+02         YZ=  0.23124147E-01         ZZ= -0.12217189E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69647668E-01 Y= -0.14188027E-10 Z= -0.11847099E-05   Total=     0.06964767
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25609982E+01         XY=  0.65807509E+00         XZ=  0.58262443E+00
                YY=  0.12448515E+01         YZ= -0.11194015E-04         ZZ=  0.12448283E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5806036E-02 Y=  0.4998339E-09 Z=  0.4624850E-02  Total=      0.0074229
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105310E+02         XY=  0.29030178E-01         XZ=  0.48782066E-01
                YY= -0.10161246E+02         YZ=  0.23124249E-01         ZZ= -0.12217189E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53948882E-01 Y= -0.13148355E-10 Z= -0.88221323E-06   Total=     0.05394888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22643327E+01         XY=  0.50974306E+00         XZ=  0.45178710E+00
                YY=  0.12448513E+01         YZ= -0.83358270E-05         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8863655E-02 Y=  0.4984613E-09 Z=  0.4624968E-02  Total=      0.0099977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074734E+02         XY=  0.44318272E-01         XZ=  0.62350993E-01
                YY= -0.10161246E+02         YZ=  0.23124840E-01         ZZ= -0.12217187E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17718497E-01 Y= -0.85366193E-11 Z= -0.62073358E-06   Total=     0.01771850
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15796753E+01         XY=  0.16741553E+00         XZ=  0.14900216E+00
                YY=  0.12448487E+01         YZ= -0.58651636E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8548499E-02 Y=  0.4978834E-09 Z=  0.4624882E-02  Total=      0.0097194
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077885E+02         XY=  0.42742494E-01         XZ=  0.60992144E-01
                YY= -0.10161246E+02         YZ=  0.23124409E-01         ZZ= -0.12217188E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25258472E-01 Y= -0.24246826E-11 Z= -0.75030699E-06   Total=     0.02525847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76752821E+00         XY= -0.23865798E+00         XZ= -0.21052550E+00
                YY=  0.12448470E+01         YZ= -0.70894036E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4980132E-02 Y=  0.4984613E-09 Z=  0.4624573E-02  Total=      0.0067962
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113569E+02         XY=  0.24900657E-01         XZ=  0.45220721E-01
                YY= -0.10161246E+02         YZ=  0.23122862E-01         ZZ= -0.12217192E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58628155E-01 Y=  0.24034412E-11 Z= -0.10792933E-05   Total=     0.05862815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13693470E+00         XY= -0.55395578E+00         XZ= -0.48998094E+00
                YY=  0.12448485E+01         YZ= -0.10197833E-04         ZZ=  0.12448274E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4838577E-03 Y=  0.4999784E-09 Z=  0.4624330E-02  Total=      0.0046496
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168209E+02         XY= -0.24192904E-02         XZ=  0.21037994E-01
                YY= -0.10161246E+02         YZ=  0.23121647E-01         ZZ= -0.12217194E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69690919E-01 Y=  0.36866992E-11 Z= -0.11439769E-05   Total=     0.06969092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.72120006E-01         XY= -0.65848376E+00         XZ= -0.58300432E+00
                YY=  0.12448508E+01         YZ= -0.10808994E-04         ZZ=  0.12448284E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5764351E-02 Y=  0.5088640E-09 Z=  0.4624353E-02  Total=      0.0073900
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221014E+02         XY= -0.28821756E-01         XZ= -0.23533993E-02
                YY= -0.10161246E+02         YZ=  0.23121761E-01         ZZ= -0.12217194E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54234526E-01 Y=  0.72627267E-12 Z= -0.84915074E-06   Total=     0.05423453
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21996206E+00         XY= -0.51244200E+00         XZ= -0.45417426E+00
                YY=  0.12448507E+01         YZ= -0.80233157E-05         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8851834E-02 Y=  0.5097309E-09 Z=  0.4624475E-02  Total=      0.0099870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251889E+02         XY= -0.44259173E-01         XZ= -0.16052285E-01
                YY= -0.10161246E+02         YZ=  0.23122372E-01         ZZ= -0.12217192E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18137961E-01 Y= -0.52504346E-11 Z= -0.59508982E-06   Total=     0.01813796
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90208604E+00         XY= -0.17137890E+00         XZ= -0.15249611E+00
                YY=  0.12448482E+01         YZ= -0.56228380E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8571129E-02 Y=  0.5097309E-09 Z=  0.4624394E-02  Total=      0.0097391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249082E+02         XY= -0.42855647E-01         XZ= -0.14845601E-01
                YY= -0.10161246E+02         YZ=  0.23121967E-01         ZZ= -0.12217193E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24864713E-01 Y= -0.11588244E-10 Z= -0.72198891E-06   Total=     0.02486471
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17147188E+01         XY=  0.23493749E+00         XZ=  0.20724211E+00
                YY=  0.12448465E+01         YZ= -0.68219138E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5028693E-02 Y=  0.5087918E-09 Z=  0.4624088E-02  Total=      0.0068315
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213658E+02         XY= -0.25143467E-01         XZ=  0.80882700E-03
                YY= -0.10161246E+02         YZ=  0.23120440E-01         ZZ= -0.12217197E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58409930E-01 Y= -0.15358697E-10 Z= -0.10429954E-05   Total=     0.05840993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23486335E+01         XY=  0.55189386E+00         XZ=  0.48814882E+00
                YY=  0.12448479E+01         YZ= -0.98550169E-05         ZZ=  0.12448275E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4277567E-03 Y=  0.5077082E-09 Z=  0.4623848E-02  Total=      0.0046436
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159093E+02         XY=  0.21387813E-02         XZ=  0.24956014E-01
                YY= -0.10161246E+02         YZ=  0.23119236E-01         ZZ= -0.12217199E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69731371E-01 Y= -0.14669186E-10 Z= -0.11067080E-05   Total=     0.06973137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25625790E+01         XY=  0.65886597E+00         XZ=  0.58331922E+00
                YY=  0.12448502E+01         YZ= -0.10457008E-04         ZZ=  0.12448286E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5721984E-02 Y=  0.5146433E-09 Z=  0.4623872E-02  Total=      0.0073567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106151E+02         XY=  0.28609916E-01         XZ=  0.48408007E-01
                YY= -0.10161245E+02         YZ=  0.23119360E-01         ZZ= -0.12217199E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54518452E-01 Y= -0.95359664E-11 Z= -0.82038990E-06   Total=     0.05451845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22750950E+01         XY=  0.51512472E+00         XZ=  0.45651701E+00
                YY=  0.12448501E+01         YZ= -0.77516507E-05         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8839267E-02 Y=  0.5135597E-09 Z=  0.4623998E-02  Total=      0.0099757
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074979E+02         XY=  0.44196334E-01         XZ=  0.62239107E-01
                YY= -0.10161245E+02         YZ=  0.23119988E-01         ZZ= -0.12217197E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18557547E-01 Y= -0.19225241E-11 Z= -0.57333590E-06   Total=     0.01855755
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15955302E+01         XY=  0.17534341E+00         XZ=  0.15597075E+00
                YY=  0.12448476E+01         YZ= -0.54172649E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8593107E-02 Y=  0.5124038E-09 Z=  0.4623922E-02  Total=      0.0097582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077440E+02         XY=  0.42965535E-01         XZ=  0.61183484E-01
                YY= -0.10161245E+02         YZ=  0.23119607E-01         ZZ= -0.12217198E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24468934E-01 Y=  0.50975916E-11 Z= -0.69633333E-06   Total=     0.02446893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78244754E+00         XY= -0.23119792E+00         XZ= -0.20396715E+00
                YY=  0.12448460E+01         YZ= -0.65793636E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5076829E-02 Y=  0.5138486E-09 Z=  0.4623620E-02  Total=      0.0068667
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112603E+02         XY=  0.25384142E-01         XZ=  0.45641022E-01
                YY= -0.10161245E+02         YZ=  0.23118099E-01         ZZ= -0.12217201E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58188454E-01 Y=  0.86832823E-11 Z= -0.10075810E-05   Total=     0.05818845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14524298E+00         XY= -0.54980121E+00         XZ= -0.48632739E+00
                YY=  0.12448473E+01         YZ= -0.95201981E-05         ZZ=  0.12448277E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3718012E-03 Y=  0.5168105E-09 Z=  0.4623381E-02  Total=      0.0046383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167089E+02         XY= -0.18590082E-02         XZ=  0.21525856E-01
                YY= -0.10161245E+02         YZ=  0.23116905E-01         ZZ= -0.12217204E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69768479E-01 Y=  0.74837286E-11 Z= -0.10683226E-05   Total=     0.06976848
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73586631E-01         XY= -0.65921659E+00         XZ= -0.58364697E+00
                YY=  0.12448496E+01         YZ= -0.10094133E-04         ZZ=  0.12448287E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5679528E-02 Y=  0.5257683E-09 Z=  0.4623408E-02  Total=      0.0073235
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220167E+02         XY= -0.28397640E-01         XZ= -0.19851665E-02
                YY= -0.10161245E+02         YZ=  0.23117040E-01         ZZ= -0.12217203E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54800129E-01 Y=  0.22458410E-11 Z= -0.78900595E-06   Total=     0.05480013
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20927279E+00         XY= -0.51778618E+00         XZ= -0.45887138E+00
                YY=  0.12448496E+01         YZ= -0.74550173E-05         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8826505E-02 Y=  0.5272854E-09 Z=  0.4623538E-02  Total=      0.0099642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251637E+02         XY= -0.44132527E-01         XZ= -0.15945475E-01
                YY= -0.10161245E+02         YZ=  0.23117687E-01         ZZ= -0.12217201E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18976765E-01 Y= -0.45075329E-11 Z= -0.54876298E-06   Total=     0.01897677
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88623414E+00         XY= -0.17930445E+00         XZ= -0.15946363E+00
                YY=  0.12448471E+01         YZ= -0.51851068E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8614947E-02 Y=  0.5269964E-09 Z=  0.4623467E-02  Total=      0.0097772
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249521E+02         XY= -0.43074737E-01         XZ= -0.15042673E-01
                YY= -0.10161245E+02         YZ=  0.23117331E-01         ZZ= -0.12217202E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24071551E-01 Y= -0.95971340E-11 Z= -0.66917581E-06   Total=     0.02407155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16997294E+01         XY=  0.22744319E+00         XZ=  0.20065282E+00
                YY=  0.12448455E+01         YZ= -0.63228857E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5125021E-02 Y=  0.5259128E-09 Z=  0.4623169E-02  Total=      0.0069021
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214622E+02         XY= -0.25625106E-01         XZ=  0.38094711E-03
                YY= -0.10161245E+02         YZ=  0.23115842E-01         ZZ= -0.12217206E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57964038E-01 Y= -0.10599554E-10 Z= -0.97282771E-06   Total=     0.05796404
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23402066E+01         XY=  0.54768079E+00         XZ=  0.48444390E+00
                YY=  0.12448468E+01         YZ= -0.91919888E-05         ZZ=  0.12448278E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3155320E-03 Y=  0.5253349E-09 Z=  0.4622932E-02  Total=      0.0046337
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160217E+02         XY=  0.15776578E-02         XZ=  0.24458215E-01
                YY= -0.10161245E+02         YZ=  0.23114658E-01         ZZ= -0.12217208E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69802438E-01 Y= -0.69277760E-11 Z= -0.10326165E-05   Total=     0.06980244
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25639210E+01         XY=  0.65953746E+00         XZ=  0.58390891E+00
                YY=  0.12448490E+01         YZ= -0.97568801E-05         ZZ=  0.12448288E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5636536E-02 Y=  0.5332091E-09 Z=  0.4622961E-02  Total=      0.0072899
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107007E+02         XY=  0.28182680E-01         XZ=  0.48027871E-01
                YY= -0.10161245E+02         YZ=  0.23114801E-01         ZZ= -0.12217208E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55079636E-01 Y= -0.90879283E-13 Z= -0.76158677E-06   Total=     0.05507964
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22856990E+01         XY=  0.52042713E+00         XZ=  0.46117890E+00
                YY=  0.12448490E+01         YZ= -0.71959634E-05         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8813105E-02 Y=  0.5342205E-09 Z=  0.4623094E-02  Total=      0.0099521
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075241E+02         XY=  0.44065524E-01         XZ=  0.62119581E-01
                YY= -0.10161245E+02         YZ=  0.23115466E-01         ZZ= -0.12217206E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19395599E-01 Y=  0.69830046E-11 Z= -0.52862483E-06   Total=     0.01939560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16113663E+01         XY=  0.18326185E+00         XZ=  0.16293373E+00
                YY=  0.12448466E+01         YZ= -0.49947330E-05         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8636204E-02 Y=  0.5357376E-09 Z=  0.4623027E-02  Total=      0.0097957
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077010E+02         XY=  0.43181020E-01         XZ=  0.61368469E-01
                YY= -0.10161245E+02         YZ=  0.23115133E-01         ZZ= -0.12217207E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23672641E-01 Y=  0.11260122E-10 Z= -0.64611243E-06   Total=     0.02367264
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79749456E+00         XY= -0.22367404E+00         XZ= -0.19735005E+00
                YY=  0.12448451E+01         YZ= -0.61047943E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5172821E-02 Y=  0.5380493E-09 Z=  0.4622733E-02  Total=      0.0069374
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111644E+02         XY=  0.25864103E-01         XZ=  0.46058614E-01
                YY= -0.10161245E+02         YZ=  0.23113662E-01         ZZ= -0.12217210E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57736783E-01 Y=  0.10952277E-10 Z= -0.94089592E-06   Total=     0.05773678
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15377751E+00         XY= -0.54553354E+00         XZ= -0.48257282E+00
                YY=  0.12448463E+01         YZ= -0.88900973E-05         ZZ=  0.12448280E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2594024E-03 Y=  0.5394941E-09 Z=  0.4622498E-02  Total=      0.0046298
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165966E+02         XY= -0.12970139E-02         XZ=  0.22015645E-01
                YY= -0.10161245E+02         YZ=  0.23112487E-01         ZZ= -0.12217213E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69833336E-01 Y=  0.63059058E-11 Z= -0.99764604E-06   Total=     0.06983334
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.74813140E-01         XY= -0.65982940E+00         XZ= -0.58418407E+00
                YY=  0.12448485E+01         YZ= -0.94263472E-05         ZZ=  0.12448290E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5593467E-02 Y=  0.5477295E-09 Z=  0.4622528E-02  Total=      0.0072564
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219307E+02         XY= -0.27967335E-01         XZ= -0.16111056E-02
                YY= -0.10161245E+02         YZ=  0.23112638E-01         ZZ= -0.12217212E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55357029E-01 Y= -0.52772986E-12 Z= -0.73273639E-06   Total=     0.05535703
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19874807E+00         XY= -0.52304812E+00         XZ= -0.46349762E+00
                YY=  0.12448485E+01         YZ= -0.69233710E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8799526E-02 Y=  0.5471516E-09 Z=  0.4622665E-02  Total=      0.0099399
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251368E+02         XY= -0.43997632E-01         XZ= -0.15831116E-01
                YY= -0.10161245E+02         YZ=  0.23113321E-01         ZZ= -0.12217210E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19814067E-01 Y= -0.64716048E-11 Z= -0.50586743E-06   Total=     0.01981407
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87041069E+00         XY= -0.18721580E+00         XZ= -0.16642090E+00
                YY=  0.12448462E+01         YZ= -0.47798197E-05         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8657335E-02 Y=  0.5467182E-09 Z=  0.4622603E-02  Total=      0.0098142
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249946E+02         XY= -0.43286679E-01         XZ= -0.15233268E-01
                YY= -0.10161245E+02         YZ=  0.23113012E-01         ZZ= -0.12217211E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23272219E-01 Y= -0.89085304E-11 Z= -0.62081531E-06   Total=     0.02327222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16846235E+01         XY=  0.21989060E+00         XZ=  0.19401023E+00
                YY=  0.12448446E+01         YZ= -0.58659401E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5220681E-02 Y=  0.5468626E-09 Z=  0.4622312E-02  Total=      0.0069729
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215580E+02         XY= -0.26103408E-01         XZ= -0.43879084E-04
                YY= -0.10161245E+02         YZ=  0.23111559E-01         ZZ= -0.12217214E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57506728E-01 Y= -0.68355851E-11 Z= -0.90841052E-06   Total=     0.05750673
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23315639E+01         XY=  0.54335983E+00         XZ=  0.48064312E+00
                YY=  0.12448458E+01         YZ= -0.85833036E-05         ZZ=  0.12448281E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2029662E-03 Y=  0.5459958E-09 Z=  0.4622079E-02  Total=      0.0046265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161343E+02         XY=  0.10148288E-02         XZ=  0.23959025E-01
                YY= -0.10161245E+02         YZ=  0.23110393E-01         ZZ= -0.12217217E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69861233E-01 Y= -0.12751479E-11 Z= -0.96431283E-06   Total=     0.06986123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25650312E+01         XY=  0.66009299E+00         XZ=  0.58439717E+00
                YY=  0.12448479E+01         YZ= -0.91114571E-05         ZZ=  0.12448291E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5549879E-02 Y=  0.5536533E-09 Z=  0.4622111E-02  Total=      0.0072225
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107874E+02         XY=  0.27749392E-01         XZ=  0.47642580E-01
                YY= -0.10161245E+02         YZ=  0.23110552E-01         ZZ= -0.12217216E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55632385E-01 Y=  0.52340949E-11 Z= -0.70756078E-06   Total=     0.05563238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22961436E+01         XY=  0.52564986E+00         XZ=  0.46577261E+00
                YY=  0.12448479E+01         YZ= -0.66854473E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8785335E-02 Y=  0.5554593E-09 Z=  0.4622250E-02  Total=      0.0099271
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075520E+02         XY=  0.43926675E-01         XZ=  0.61993256E-01
                YY= -0.10161245E+02         YZ=  0.23111250E-01         ZZ= -0.12217214E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20232266E-01 Y=  0.98175236E-11 Z= -0.48826431E-06   Total=     0.02023227
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16271763E+01         XY=  0.19116721E+00         XZ=  0.16988770E+00
                YY=  0.12448457E+01         YZ= -0.46133574E-05         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8677918E-02 Y=  0.5569041E-09 Z=  0.4622193E-02  Total=      0.0098321
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076594E+02         XY=  0.43389589E-01         XZ=  0.61547753E-01
                YY= -0.10161245E+02         YZ=  0.23110963E-01         ZZ= -0.12217215E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22870165E-01 Y=  0.10572895E-10 Z= -0.60117961E-06   Total=     0.02287017
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81265847E+00         XY= -0.21609174E+00         XZ= -0.19067951E+00
                YY=  0.12448442E+01         YZ= -0.56802459E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5268191E-02 Y=  0.5586379E-09 Z=  0.4621906E-02  Total=      0.0070083
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110691E+02         XY=  0.26340951E-01         XZ=  0.46473918E-01
                YY= -0.10161245E+02         YZ=  0.23109527E-01         ZZ= -0.12217218E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57273735E-01 Y=  0.74008469E-11 Z= -0.88066344E-06   Total=     0.05727373
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16252709E+00         XY= -0.54115837E+00         XZ= -0.47872296E+00
                YY=  0.12448453E+01         YZ= -0.83210117E-05         ZZ=  0.12448282E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1466212E-03 Y=  0.5613108E-09 Z=  0.4621674E-02  Total=      0.0046240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164839E+02         XY= -0.73310787E-03         XZ=  0.22507562E-01
                YY= -0.10161245E+02         YZ=  0.23108367E-01         ZZ= -0.12217221E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69885981E-01 Y=  0.19952647E-11 Z= -0.93336488E-06   Total=     0.06988598
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75808798E-01         XY= -0.66032682E+00         XZ= -0.58462069E+00
                YY=  0.12448474E+01         YZ= -0.88190132E-05         ZZ=  0.12448292E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5506158E-02 Y=  0.5717135E-09 Z=  0.4621707E-02  Total=      0.0071887
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218435E+02         XY= -0.27530793E-01         XZ= -0.12311966E-02
                YY= -0.10161245E+02         YZ=  0.23108533E-01         ZZ= -0.12217220E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55905567E-01 Y= -0.29836195E-11 Z= -0.68187107E-06   Total=     0.05590557
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18838139E+00         XY= -0.52823106E+00         XZ= -0.46805691E+00
                YY=  0.12448474E+01         YZ= -0.64427825E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8770907E-02 Y=  0.5743864E-09 Z=  0.4621850E-02  Total=      0.0099141
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251083E+02         XY= -0.43854539E-01         XZ= -0.15709321E-01
                YY= -0.10161245E+02         YZ=  0.23109248E-01         ZZ= -0.12217218E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20650093E-01 Y= -0.51521257E-11 Z= -0.46812310E-06   Total=     0.02065009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85461137E+00         XY= -0.19511511E+00         XZ= -0.17337081E+00
                YY=  0.12448453E+01         YZ= -0.44231747E-05         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8698319E-02 Y=  0.5757590E-09 Z=  0.4621797E-02  Total=      0.0098500
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250357E+02         XY= -0.43491595E-01         XZ= -0.15417600E-01
                YY= -0.10161245E+02         YZ=  0.23108983E-01         ZZ= -0.12217219E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22466531E-01 Y= -0.34865191E-11 Z= -0.57884883E-06   Total=     0.02246653
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16693975E+01         XY=  0.21227795E+00         XZ=  0.18731193E+00
                YY=  0.12448437E+01         YZ= -0.54693669E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5315712E-02 Y=  0.5761202E-09 Z=  0.4621513E-02  Total=      0.0070438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216531E+02         XY= -0.26578563E-01         XZ= -0.46595969E-03
                YY= -0.10161244E+02         YZ=  0.23107565E-01         ZZ= -0.12217222E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57037793E-01 Y=  0.12547253E-11 Z= -0.85185371E-06   Total=     0.05703779
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23227015E+01         XY=  0.53892904E+00         XZ=  0.47674417E+00
                YY=  0.12448448E+01         YZ= -0.80488491E-05         ZZ=  0.12448283E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9000314E-04 Y=  0.5772760E-09 Z=  0.4621283E-02  Total=      0.0046222
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162474E+02         XY=  0.45001366E-03         XZ=  0.23458034E-01
                YY= -0.10161244E+02         YZ=  0.23106412E-01         ZZ= -0.12217225E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69907512E-01 Y=  0.69398355E-11 Z= -0.90385686E-06   Total=     0.06990751
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25659050E+01         XY=  0.66053026E+00         XZ=  0.58478170E+00
                YY=  0.12448469E+01         YZ= -0.85401599E-05         ZZ=  0.12448293E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5461935E-02 Y=  0.5858727E-09 Z=  0.4621317E-02  Total=      0.0071547
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108755E+02         XY=  0.27309674E-01         XZ=  0.47251633E-01
                YY= -0.10161244E+02         YZ=  0.23106583E-01         ZZ= -0.12217224E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56176471E-01 Y=  0.11091722E-10 Z= -0.65992753E-06   Total=     0.05617647
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23064246E+01         XY=  0.53079072E+00         XZ=  0.47029631E+00
                YY=  0.12448470E+01         YZ= -0.62353268E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8755866E-02 Y=  0.5869563E-09 Z=  0.4621463E-02  Total=      0.0099007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075815E+02         XY=  0.43779327E-01         XZ=  0.61859572E-01
                YY= -0.10161244E+02         YZ=  0.23107312E-01         ZZ= -0.12217222E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21067431E-01 Y=  0.12037975E-10 Z= -0.45302837E-06   Total=     0.02106743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16429580E+01         XY=  0.19905837E+00         XZ=  0.17683216E+00
                YY=  0.12448448E+01         YZ= -0.42804050E-05         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8718154E-02 Y=  0.5874620E-09 Z=  0.4621414E-02  Total=      0.0098673
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076193E+02         XY=  0.43590767E-01         XZ=  0.61720790E-01
                YY= -0.10161244E+02         YZ=  0.23107069E-01         ZZ= -0.12217223E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22061420E-01 Y=  0.96493181E-11 Z= -0.56132108E-06   Total=     0.02206142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82794089E+00         XY= -0.20845021E+00         XZ= -0.18395396E+00
                YY=  0.12448433E+01         YZ= -0.53036427E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5362859E-02 Y=  0.5871730E-09 Z=  0.4621134E-02  Total=      0.0070792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109746E+02         XY=  0.26814292E-01         XZ=  0.46886500E-01
                YY= -0.10161244E+02         YZ=  0.23105666E-01         ZZ= -0.12217226E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56798970E-01 Y=  0.53282050E-11 Z= -0.82587019E-06   Total=     0.05679897
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17149813E+00         XY= -0.53667249E+00         XZ= -0.47477389E+00
                YY=  0.12448444E+01         YZ= -0.78033056E-05         ZZ=  0.12448284E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3349967E-04 Y=  0.5883289E-09 Z=  0.4620904E-02  Total=      0.0046210
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163709E+02         XY= -0.16750041E-03         XZ=  0.23001382E-01
                YY= -0.10161244E+02         YZ=  0.23104519E-01         ZZ= -0.12217229E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69925853E-01 Y=  0.12837143E-11 Z= -0.87398735E-06   Total=     0.06992585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.76563055E-01         XY= -0.66070356E+00         XZ= -0.58495096E+00
                YY=  0.12448464E+01         YZ= -0.82579807E-05         ZZ=  0.12448294E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5417594E-02 Y=  0.5981536E-09 Z=  0.4620940E-02  Total=      0.0071206
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217550E+02         XY= -0.27087972E-01         XZ= -0.84538971E-03
                YY= -0.10161244E+02         YZ=  0.23104696E-01         ZZ= -0.12217228E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56445080E-01 Y= -0.54588275E-12 Z= -0.63459475E-06   Total=     0.05644508
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17818532E+00         XY= -0.53332871E+00         XZ= -0.47254254E+00
                YY=  0.12448465E+01         YZ= -0.59960634E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8740588E-02 Y=  0.5995984E-09 Z=  0.4621089E-02  Total=      0.0098870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250780E+02         XY= -0.43702943E-01         XZ= -0.15579761E-01
                YY= -0.10161244E+02         YZ=  0.23105441E-01         ZZ= -0.12217226E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21484233E-01 Y=  0.59937918E-12 Z= -0.43328106E-06   Total=     0.02148423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83884774E+00         XY= -0.20299659E+00         XZ= -0.18030737E+00
                YY=  0.12448444E+01         YZ= -0.40939150E-05         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8737793E-02 Y=  0.6007543E-09 Z=  0.4621044E-02  Total=      0.0098845
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250753E+02         XY= -0.43688968E-01         XZ= -0.15595125E-01
                YY= -0.10161244E+02         YZ=  0.23105220E-01         ZZ= -0.12217226E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21654891E-01 Y=  0.39823385E-11 Z= -0.54040276E-06   Total=     0.02165489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16540591E+01         XY=  0.20460907E+00         XZ=  0.18056179E+00
                YY=  0.12448429E+01         YZ= -0.51060399E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5409990E-02 Y=  0.6006098E-09 Z=  0.4620767E-02  Total=      0.0071147
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217474E+02         XY= -0.27049954E-01         XZ= -0.88464716E-03
                YY= -0.10161244E+02         YZ=  0.23103834E-01         ZZ= -0.12217230E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56557328E-01 Y=  0.77783193E-11 Z= -0.79965376E-06   Total=     0.05655733
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23136214E+01         XY=  0.53438931E+00         XZ=  0.47274792E+00
                YY=  0.12448439E+01         YZ= -0.75555751E-05         ZZ=  0.12448285E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2324013E-04 Y=  0.6012600E-09 Z=  0.4620539E-02  Total=      0.0046206
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163607E+02         XY= -0.11620268E-03         XZ=  0.22955859E-01
                YY= -0.10161244E+02         YZ=  0.23102693E-01         ZZ= -0.12217232E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69941056E-01 Y=  0.99913613E-11 Z= -0.84740077E-06   Total=     0.06994106
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25665381E+01         XY=  0.66084721E+00         XZ=  0.58506033E+00
                YY=  0.12448459E+01         YZ= -0.80067006E-05         ZZ=  0.12448294E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5372792E-02 Y=  0.6097121E-09 Z=  0.4620575E-02  Total=      0.0070864
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109647E+02         XY=  0.26863958E-01         XZ=  0.46855491E-01
                YY= -0.10161244E+02         YZ=  0.23102874E-01         ZZ= -0.12217232E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56711436E-01 Y=  0.94273138E-11 Z= -0.61497029E-06   Total=     0.05671144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23165332E+01         XY=  0.53584541E+00         XZ=  0.47474556E+00
                YY=  0.12448460E+01         YZ= -0.58105557E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8724739E-02 Y=  0.6113014E-09 Z=  0.4620727E-02  Total=      0.0098728
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076127E+02         XY=  0.43623693E-01         XZ=  0.61718765E-01
                YY= -0.10161244E+02         YZ=  0.23103632E-01         ZZ= -0.12217230E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21900532E-01 Y=  0.62526166E-11 Z= -0.41981865E-06   Total=     0.02190053
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16587007E+01         XY=  0.20693004E+00         XZ=  0.18376164E+00
                YY=  0.12448440E+01         YZ= -0.39666667E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8756907E-02 Y=  0.6120238E-09 Z=  0.4620687E-02  Total=      0.0099012
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075806E+02         XY=  0.43784534E-01         XZ=  0.61887576E-01
                YY= -0.10161244E+02         YZ=  0.23103432E-01         ZZ= -0.12217230E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21246922E-01 Y=  0.18844107E-11 Z= -0.52441340E-06   Total=     0.02124692
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84333204E+00         XY= -0.20075432E+00         XZ= -0.17717852E+00
                YY=  0.12448425E+01         YZ= -0.49549804E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5456783E-02 Y=  0.6123128E-09 Z=  0.4620413E-02  Total=      0.0071502
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108807E+02         XY=  0.27283914E-01         XZ=  0.47296157E-01
                YY= -0.10161244E+02         YZ=  0.23102061E-01         ZZ= -0.12217233E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56312851E-01 Y= -0.17270566E-11 Z= -0.77549430E-06   Total=     0.05631285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18068377E+00         XY= -0.53207933E+00         XZ= -0.47072930E+00
                YY=  0.12448435E+01         YZ= -0.73273813E-05         ZZ=  0.12448285E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7989733E-04 Y=  0.6132519E-09 Z=  0.4620185E-02  Total=      0.0046209
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162576E+02         XY=  0.39948459E-03         XZ=  0.23496784E-01
                YY= -0.10161244E+02         YZ=  0.23100925E-01         ZZ= -0.12217236E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69953109E-01 Y= -0.30592015E-11 Z= -0.81943285E-06   Total=     0.06995311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77078864E-01         XY= -0.66096109E+00         XZ= -0.58517661E+00
                YY=  0.12448455E+01         YZ= -0.77425513E-05         ZZ=  0.12448295E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5327844E-02 Y=  0.6208372E-09 Z=  0.4620222E-02  Total=      0.0070521
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216653E+02         XY= -0.26639222E-01         XZ= -0.45404019E-03
                YY= -0.10161244E+02         YZ=  0.23101110E-01         ZZ= -0.12217235E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56975529E-01 Y= -0.17530430E-11 Z= -0.59137044E-06   Total=     0.05697553
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16816056E+00         XY= -0.53834073E+00         XZ= -0.47695441E+00
                YY=  0.12448456E+01         YZ= -0.55876628E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8708629E-02 Y=  0.6216318E-09 Z=  0.4620377E-02  Total=      0.0098584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250462E+02         XY= -0.43543147E-01         XZ= -0.15442753E-01
                YY= -0.10161244E+02         YZ=  0.23101883E-01         ZZ= -0.12217233E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22316316E-01 Y=  0.12331350E-11 Z= -0.40191194E-06   Total=     0.02231632
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82312301E+00         XY= -0.21085863E+00         XZ= -0.18722911E+00
                YY=  0.12448436E+01         YZ= -0.37975143E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8775803E-02 Y=  0.6224987E-09 Z=  0.4620341E-02  Total=      0.0099178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251133E+02         XY= -0.43879019E-01         XZ= -0.15766079E-01
                YY= -0.10161244E+02         YZ=  0.23101705E-01         ZZ= -0.12217234E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20837525E-01 Y=  0.41164133E-11 Z= -0.50592147E-06   Total=     0.02083752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16386125E+01         XY=  0.19688608E+00         XZ=  0.17376195E+00
                YY=  0.12448421E+01         YZ= -0.47802378E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5503542E-02 Y=  0.6228599E-09 Z=  0.4620070E-02  Total=      0.0071857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218411E+02         XY= -0.27517714E-01         XZ= -0.13000859E-02
                YY= -0.10161244E+02         YZ=  0.23100349E-01         ZZ= -0.12217237E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56065551E-01 Y=  0.51903290E-11 Z= -0.75217298E-06   Total=     0.05606555
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23043275E+01         XY=  0.52974268E+00         XZ=  0.46865654E+00
                YY=  0.12448431E+01         YZ= -0.71069684E-05         ZZ=  0.12448286E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1367754E-03 Y=  0.6231489E-09 Z=  0.4619844E-02  Total=      0.0046219
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164743E+02         XY= -0.68387916E-03         XZ=  0.22452435E-01
                YY= -0.10161244E+02         YZ=  0.23099218E-01         ZZ= -0.12217239E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69962028E-01 Y=  0.36842091E-11 Z= -0.79537485E-06   Total=     0.06996203
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25669337E+01         XY=  0.66104536E+00         XZ=  0.58523486E+00
                YY=  0.12448450E+01         YZ= -0.75151797E-05         ZZ=  0.12448296E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5282447E-02 Y=  0.6297951E-09 Z=  0.4619882E-02  Total=      0.0070177
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110551E+02         XY=  0.26412234E-01         XZ=  0.46454149E-01
                YY= -0.10161244E+02         YZ=  0.23099406E-01         ZZ= -0.12217239E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57237380E-01 Y=  0.16293775E-12 Z= -0.57318878E-06   Total=     0.05723738
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23264714E+01         XY=  0.54081486E+00         XZ=  0.47912164E+00
                YY=  0.12448451E+01         YZ= -0.54158550E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8691956E-02 Y=  0.6295061E-09 Z=  0.4620039E-02  Total=      0.0098435
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076456E+02         XY=  0.43459780E-01         XZ=  0.61570866E-01
                YY= -0.10161244E+02         YZ=  0.23100191E-01         ZZ= -0.12217237E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22731615E-01 Y= -0.37327639E-11 Z= -0.38897855E-06   Total=     0.02273162
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16744052E+01         XY=  0.21478264E+00         XZ=  0.19067696E+00
                YY=  0.12448432E+01         YZ= -0.36753530E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8794181E-02 Y=  0.6295061E-09 Z=  0.4620007E-02  Total=      0.0099339
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075434E+02         XY=  0.43970903E-01         XZ=  0.62048164E-01
                YY= -0.10161244E+02         YZ=  0.23100032E-01         ZZ= -0.12217237E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20426661E-01 Y= -0.60800077E-11 Z= -0.49035848E-06   Total=     0.02042666
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85883216E+00         XY= -0.19300398E+00         XZ= -0.17035269E+00
                YY=  0.12448418E+01         YZ= -0.46332739E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5549967E-02 Y=  0.6295061E-09 Z=  0.4619739E-02  Total=      0.0072211
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107876E+02         XY=  0.27749835E-01         XZ=  0.47702962E-01
                YY= -0.10161244E+02         YZ=  0.23098692E-01         ZZ= -0.12217240E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55815382E-01 Y= -0.56231251E-11 Z= -0.72887748E-06   Total=     0.05581538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19008395E+00         XY= -0.52737893E+00         XZ= -0.46658893E+00
                YY=  0.12448427E+01         YZ= -0.68869477E-05         ZZ=  0.12448287E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1935749E-03 Y=  0.6302285E-09 Z=  0.4619514E-02  Total=      0.0046236
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161440E+02         XY=  0.96787235E-03         XZ=  0.23993854E-01
                YY= -0.10161244E+02         YZ=  0.23097566E-01         ZZ= -0.12217243E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69967762E-01 Y= -0.24108671E-11 Z= -0.76858943E-06   Total=     0.06996776
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77356454E-01         XY= -0.66109954E+00         XZ= -0.58529760E+00
                YY=  0.12448446E+01         YZ= -0.72621440E-05         ZZ=  0.12448297E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5236901E-02 Y=  0.6388974E-09 Z=  0.4619552E-02  Total=      0.0069832
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215745E+02         XY= -0.26184505E-01         XZ= -0.57048634E-04
                YY= -0.10161244E+02         YZ=  0.23097757E-01         ZZ= -0.12217242E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57496941E-01 Y=  0.21923833E-11 Z= -0.55083885E-06   Total=     0.05749694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15830664E+00         XY= -0.54326736E+00         XZ= -0.48129274E+00
                YY=  0.12448447E+01         YZ= -0.52046605E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8675021E-02 Y=  0.6406312E-09 Z=  0.4619712E-02  Total=      0.0098284
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250126E+02         XY= -0.43375105E-01         XZ= -0.15298194E-01
                YY= -0.10161244E+02         YZ=  0.23098556E-01         ZZ= -0.12217240E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23146394E-01 Y=  0.61422292E-11 Z= -0.37257250E-06   Total=     0.02314639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80743623E+00         XY= -0.21870173E+00         XZ= -0.19413666E+00
                YY=  0.12448428E+01         YZ= -0.35202543E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8812341E-02 Y=  0.6417148E-09 Z=  0.4619684E-02  Total=      0.0099498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251499E+02         XY= -0.44061706E-01         XZ= -0.15930372E-01
                YY= -0.10161244E+02         YZ=  0.23098419E-01         ZZ= -0.12217240E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20014339E-01 Y=  0.76937363E-11 Z= -0.47396397E-06   Total=     0.02001434
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16230560E+01         XY=  0.18910809E+00         XZ=  0.16691126E+00
                YY=  0.12448415E+01         YZ= -0.44782517E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5596364E-02 Y=  0.6423650E-09 Z=  0.4619419E-02  Total=      0.0072566
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219340E+02         XY= -0.27981824E-01         XZ= -0.17122264E-02
                YY= -0.10161244E+02         YZ=  0.23097093E-01         ZZ= -0.12217243E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55562311E-01 Y=  0.62638204E-11 Z= -0.70801453E-06   Total=     0.05556231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22948170E+01         XY=  0.52498775E+00         XZ=  0.46446828E+00
                YY=  0.12448424E+01         YZ= -0.66897209E-05         ZZ=  0.12448287E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2506101E-03 Y=  0.6437375E-09 Z=  0.4619194E-02  Total=      0.0046260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165882E+02         XY= -0.12530525E-02         XZ=  0.21947743E-01
                YY= -0.10161244E+02         YZ=  0.23095970E-01         ZZ= -0.12217246E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69970223E-01 Y=  0.27473536E-11 Z= -0.74643253E-06   Total=     0.06997022
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25670879E+01         XY=  0.66112279E+00         XZ=  0.58530304E+00
                YY=  0.12448442E+01         YZ= -0.70527477E-05         ZZ=  0.12448297E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5190877E-02 Y=  0.6522619E-09 Z=  0.4619233E-02  Total=      0.0069486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111467E+02         XY=  0.25954381E-01         XZ=  0.46047492E-01
                YY= -0.10161244E+02         YZ=  0.23096163E-01         ZZ= -0.12217245E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57754059E-01 Y= -0.87822244E-12 Z= -0.53324754E-06   Total=     0.05775406
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23362346E+01         XY=  0.54569677E+00         XZ=  0.48342201E+00
                YY=  0.12448443E+01         YZ= -0.50384716E-05         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8657475E-02 Y=  0.6537068E-09 Z=  0.4619395E-02  Total=      0.0098128
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076802E+02         XY=  0.43287374E-01         XZ=  0.61415652E-01
                YY= -0.10161244E+02         YZ=  0.23096974E-01         ZZ= -0.12217243E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23560436E-01 Y= -0.24876049E-11 Z= -0.35914099E-06   Total=     0.02356044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16900671E+01         XY=  0.22261385E+00         XZ=  0.19757570E+00
                YY=  0.12448425E+01         YZ= -0.33934164E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8829914E-02 Y=  0.6550793E-09 Z=  0.4619372E-02  Total=      0.0099652
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075077E+02         XY=  0.44149566E-01         XZ=  0.62202237E-01
                YY= -0.10161243E+02         YZ=  0.23096857E-01         ZZ= -0.12217243E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19600831E-01 Y= -0.84108096E-12 Z= -0.45778576E-06   Total=     0.01960083
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87443758E+00         XY= -0.18520102E+00         XZ= -0.16347827E+00
                YY=  0.12448411E+01         YZ= -0.43254603E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5642337E-02 Y=  0.6565964E-09 Z=  0.4619110E-02  Total=      0.0072919
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106953E+02         XY=  0.28211683E-01         XZ=  0.48106538E-01
                YY= -0.10161243E+02         YZ=  0.23095547E-01         ZZ= -0.12217246E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55306653E-01 Y=  0.37729986E-11 Z= -0.68473779E-06   Total=     0.05530665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19969700E+00         XY= -0.52257213E+00         XZ= -0.46235340E+00
                YY=  0.12448420E+01         YZ= -0.64698074E-05         ZZ=  0.12448289E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3074561E-03 Y=  0.6585469E-09 Z=  0.4618886E-02  Total=      0.0046291
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160302E+02         XY=  0.15372786E-02         XZ=  0.24492213E-01
                YY= -0.10161243E+02         YZ=  0.23094428E-01         ZZ= -0.12217249E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69969751E-01 Y=  0.96131567E-11 Z= -0.72029183E-06   Total=     0.06996975
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77394641E-01         XY= -0.66111834E+00         XZ= -0.58531306E+00
                YY=  0.12448438E+01         YZ= -0.68056951E-05         ZZ=  0.12448299E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5144830E-02 Y=  0.6674325E-09 Z=  0.4618925E-02  Total=      0.0069140
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214825E+02         XY= -0.25724154E-01         XZ=  0.34527212E-03
                YY= -0.10161243E+02         YZ=  0.23094623E-01         ZZ= -0.12217248E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58009089E-01 Y=  0.14260600E-10 Z= -0.51180318E-06   Total=     0.05800909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14862787E+00         XY= -0.54810646E+00         XZ= -0.48555509E+00
                YY=  0.12448440E+01         YZ= -0.48357238E-05         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8639806E-02 Y=  0.6702499E-09 Z=  0.4619090E-02  Total=      0.0097971
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249775E+02         XY= -0.43199034E-01         XZ= -0.15146271E-01
                YY= -0.10161243E+02         YZ=  0.23095448E-01         ZZ= -0.12217246E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23974101E-01 Y=  0.15746365E-10 Z= -0.34378195E-06   Total=     0.02397410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79179432E+00         XY= -0.22652243E+00         XZ= -0.20102637E+00
                YY=  0.12448422E+01         YZ= -0.32481407E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8847417E-02 Y=  0.6729950E-09 Z=  0.4619071E-02  Total=      0.0099806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251851E+02         XY= -0.44237087E-01         XZ= -0.16088031E-01
                YY= -0.10161243E+02         YZ=  0.23095351E-01         ZZ= -0.12217246E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19185768E-01 Y=  0.13496074E-10 Z= -0.44263790E-06   Total=     0.01918577
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16073979E+01         XY=  0.18127924E+00         XZ=  0.16001389E+00
                YY=  0.12448408E+01         YZ= -0.41822127E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5688436E-02 Y=  0.6740064E-09 Z=  0.4618811E-02  Total=      0.0073275
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220261E+02         XY= -0.28442182E-01         XZ= -0.21209329E-02
                YY= -0.10161243E+02         YZ=  0.23094055E-01         ZZ= -0.12217249E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55048019E-01 Y=  0.86442572E-11 Z= -0.66503196E-06   Total=     0.05504802
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22850978E+01         XY=  0.52012840E+00         XZ=  0.46018695E+00
                YY=  0.12448417E+01         YZ= -0.62835726E-05         ZZ=  0.12448289E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3646981E-03 Y=  0.6737897E-09 Z=  0.4618588E-02  Total=      0.0046330
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167024E+02         XY= -0.18234927E-02         XZ=  0.21442040E-01
                YY= -0.10161243E+02         YZ=  0.23092939E-01         ZZ= -0.12217252E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69965928E-01 Y=  0.35444552E-11 Z= -0.69852994E-06   Total=     0.06996593
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25670062E+01         XY=  0.66108221E+00         XZ=  0.58526738E+00
                YY=  0.12448435E+01         YZ= -0.66001252E-05         ZZ=  0.12448299E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5098138E-02 Y=  0.6802914E-09 Z=  0.4618628E-02  Total=      0.0068792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112395E+02         XY=  0.25490690E-01         XZ=  0.45635832E-01
                YY= -0.10161243E+02         YZ=  0.23093136E-01         ZZ= -0.12217251E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58261567E-01 Y=  0.68882878E-12 Z= -0.49350452E-06   Total=     0.05826157
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23458246E+01         XY=  0.55049203E+00         XZ=  0.48764735E+00
                YY=  0.12448436E+01         YZ= -0.46629396E-05         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8621349E-02 Y=  0.6822419E-09 Z=  0.4618795E-02  Total=      0.0097806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077163E+02         XY=  0.43106741E-01         XZ=  0.61253410E-01
                YY= -0.10161243E+02         YZ=  0.23093972E-01         ZZ= -0.12217249E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24386879E-01 Y=  0.15342661E-11 Z= -0.32911883E-06   Total=     0.02438688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17056842E+01         XY=  0.23042262E+00         XZ=  0.20445661E+00
                YY=  0.12448419E+01         YZ= -0.31097126E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8864139E-02 Y=  0.6835422E-09 Z=  0.4618780E-02  Total=      0.0099953
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074736E+02         XY=  0.44320693E-01         XZ=  0.62349981E-01
                YY= -0.10161243E+02         YZ=  0.23093896E-01         ZZ= -0.12217249E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18769707E-01 Y=  0.57924994E-11 Z= -0.42579416E-06   Total=     0.01876971
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89014308E+00         XY= -0.17734803E+00         XZ= -0.15655798E+00
                YY=  0.12448406E+01         YZ= -0.40231262E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5733898E-02 Y=  0.6836867E-09 Z=  0.4618523E-02  Total=      0.0073626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106038E+02         XY=  0.28669490E-01         XZ=  0.48506929E-01
                YY= -0.10161243E+02         YZ=  0.23092615E-01         ZZ= -0.12217252E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54787001E-01 Y=  0.11523118E-10 Z= -0.64223399E-06   Total=     0.05478700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20951649E+00         XY= -0.51766214E+00         XZ= -0.45802604E+00
                YY=  0.12448414E+01         YZ= -0.60681379E-05         ZZ=  0.12448291E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4215204E-03 Y=  0.6852760E-09 Z=  0.4618301E-02  Total=      0.0046375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159162E+02         XY=  0.21076002E-02         XZ=  0.24991772E-01
                YY= -0.10161243E+02         YZ=  0.23091503E-01         ZZ= -0.12217255E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69959363E-01 Y=  0.16012407E-10 Z= -0.67361733E-06   Total=     0.06995936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77198876E-01         XY= -0.66102018E+00         XZ= -0.58522583E+00
                YY=  0.12448431E+01         YZ= -0.63646295E-05         ZZ=  0.12448301E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5051671E-02 Y=  0.6940893E-09 Z=  0.4618341E-02  Total=      0.0068446
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213894E+02         XY= -0.25258358E-01         XZ=  0.75273823E-03
                YY= -0.10161243E+02         YZ=  0.23091702E-01         ZZ= -0.12217254E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58512109E-01 Y=  0.17033146E-10 Z= -0.47325060E-06   Total=     0.05851211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13912163E+00         XY= -0.55285930E+00         XZ= -0.48974297E+00
                YY=  0.12448433E+01         YZ= -0.44714293E-05         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8603027E-02 Y=  0.6961121E-09 Z=  0.4618510E-02  Total=      0.0097644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249408E+02         XY= -0.43015136E-01         XZ= -0.14987189E-01
                YY= -0.10161243E+02         YZ=  0.23092550E-01         ZZ= -0.12217252E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24799377E-01 Y=  0.13905187E-10 Z= -0.31455082E-06   Total=     0.02479938
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77619839E+00         XY= -0.23432015E+00         XZ= -0.20789796E+00
                YY=  0.12448416E+01         YZ= -0.29719596E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8881060E-02 Y=  0.6975569E-09 Z=  0.4618499E-02  Total=      0.0100102
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252188E+02         XY= -0.44405301E-01         XZ= -0.16239205E-01
                YY= -0.10161243E+02         YZ=  0.23092494E-01         ZZ= -0.12217252E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18352051E-01 Y=  0.78476622E-11 Z= -0.41117417E-06   Total=     0.01835205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15916424E+01         XY=  0.17340175E+00         XZ=  0.15307174E+00
                YY=  0.12448403E+01         YZ= -0.38849686E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5779760E-02 Y=  0.6977014E-09 Z=  0.4618246E-02  Total=      0.0073982
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221175E+02         XY= -0.28898804E-01         XZ= -0.25262464E-02
                YY= -0.10161243E+02         YZ=  0.23091228E-01         ZZ= -0.12217255E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54523009E-01 Y=  0.14510213E-11 Z= -0.62286642E-06   Total=     0.05452301
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22751761E+01         XY=  0.51516778E+00         XZ=  0.45581544E+00
                YY=  0.12448410E+01         YZ= -0.58852237E-05         ZZ=  0.12448291E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4790152E-03 Y=  0.6971235E-09 Z=  0.4618024E-02  Total=      0.0046428
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168167E+02         XY= -0.23950781E-02         XZ=  0.20935417E-01
                YY= -0.10161243E+02         YZ=  0.23090118E-01         ZZ= -0.12217258E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69949473E-01 Y= -0.25021298E-11 Z= -0.65176463E-06   Total=     0.06994947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25666947E+01         XY=  0.66092673E+00         XZ=  0.58513092E+00
                YY=  0.12448427E+01         YZ= -0.61583050E-05         ZZ=  0.12448301E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5004280E-02 Y=  0.7032639E-09 Z=  0.4618064E-02  Total=      0.0068095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113335E+02         XY=  0.25021397E-01         XZ=  0.45219374E-01
                YY= -0.10161243E+02         YZ=  0.23090318E-01         ZZ= -0.12217257E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58760141E-01 Y= -0.23220304E-11 Z= -0.45433955E-06   Total=     0.05876014
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23552457E+01         XY=  0.55520287E+00         XZ=  0.49180003E+00
                YY=  0.12448429E+01         YZ= -0.42929065E-05         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8583637E-02 Y=  0.7042031E-09 Z=  0.4618236E-02  Total=      0.0097471
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077541E+02         XY=  0.42918182E-01         XZ=  0.61084421E-01
                YY= -0.10161243E+02         YZ=  0.23091178E-01         ZZ= -0.12217255E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25211046E-01 Y=  0.17951424E-11 Z= -0.29927608E-06   Total=     0.02521105
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17212582E+01         XY=  0.23820987E+00         XZ=  0.21132105E+00
                YY=  0.12448413E+01         YZ= -0.28277341E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8896921E-02 Y=  0.7050699E-09 Z=  0.4618229E-02  Total=      0.0100241
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074408E+02         XY=  0.44484601E-01         XZ=  0.62491716E-01
                YY= -0.10161243E+02         YZ=  0.23091142E-01         ZZ= -0.12217255E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17933305E-01 Y=  0.78459254E-11 Z= -0.39453545E-06   Total=     0.01793331
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90594834E+00         XY= -0.16944518E+00         XZ= -0.14959135E+00
                YY=  0.12448400E+01         YZ= -0.37277535E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5824712E-02 Y=  0.7061536E-09 Z=  0.4617979E-02  Total=      0.0074332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105130E+02         XY=  0.29123558E-01         XZ=  0.48904468E-01
                YY= -0.10161243E+02         YZ=  0.23089891E-01         ZZ= -0.12217258E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54256492E-01 Y=  0.12935755E-10 Z= -0.60136279E-06   Total=     0.05425649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21954118E+00         XY= -0.51264955E+00         XZ= -0.45360682E+00
                YY=  0.12448407E+01         YZ= -0.56819457E-05         ZZ=  0.12448292E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5358260E-03 Y=  0.7081763E-09 Z=  0.4617757E-02  Total=      0.0046487
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158019E+02         XY=  0.26791281E-02         XZ=  0.25492868E-01
                YY= -0.10161243E+02         YZ=  0.23088784E-01         ZZ= -0.12217260E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69936635E-01 Y=  0.14616691E-10 Z= -0.62864084E-06   Total=     0.06993663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.76769909E-01         XY= -0.66080543E+00         XZ= -0.58503581E+00
                YY=  0.12448424E+01         YZ= -0.59396714E-05         ZZ=  0.12448302E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4957362E-02 Y=  0.7156171E-09 Z=  0.4617797E-02  Total=      0.0067749
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212951E+02         XY= -0.24786814E-01         XZ=  0.11657131E-02
                YY= -0.10161243E+02         YZ=  0.23088985E-01         ZZ= -0.12217260E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59005969E-01 Y=  0.12022891E-10 Z= -0.43551075E-06   Total=     0.05900597
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12978849E+00         XY= -0.55752561E+00         XZ= -0.49385593E+00
                YY=  0.12448426E+01         YZ= -0.41148780E-05         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8564613E-02 Y=  0.7169897E-09 Z=  0.4617972E-02  Total=      0.0097303
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249024E+02         XY= -0.42823068E-01         XZ= -0.14820548E-01
                YY= -0.10161243E+02         YZ=  0.23089857E-01         ZZ= -0.12217257E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25622138E-01 Y=  0.62773512E-11 Z= -0.28542727E-06   Total=     0.02562214
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76064998E+00         XY= -0.24209412E+00         XZ= -0.21475083E+00
                YY=  0.12448410E+01         YZ= -0.26968424E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8913190E-02 Y=  0.7192291E-09 Z=  0.4617969E-02  Total=      0.0100385
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252510E+02         XY= -0.44565954E-01         XZ= -0.16383466E-01
                YY= -0.10161243E+02         YZ=  0.23089841E-01         ZZ= -0.12217257E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17513246E-01 Y= -0.26125827E-13 Z= -0.38014462E-06   Total=     0.01751325
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15757909E+01         XY=  0.16547619E+00         XZ=  0.14608491E+00
                YY=  0.12448397E+01         YZ= -0.35918443E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5870256E-02 Y=  0.7197348E-09 Z=  0.4617721E-02  Total=      0.0074688
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222080E+02         XY= -0.29351282E-01         XZ= -0.29277485E-02
                YY= -0.10161243E+02         YZ=  0.23088604E-01         ZZ= -0.12217260E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53987218E-01 Y= -0.40221112E-11 Z= -0.58192875E-06   Total=     0.05398722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22650506E+01         XY=  0.51010528E+00         XZ=  0.45135250E+00
                YY=  0.12448404E+01         YZ= -0.54984612E-05         ZZ=  0.12448293E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5934910E-03 Y=  0.7194459E-09 Z=  0.4617500E-02  Total=      0.0046555
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169313E+02         XY= -0.29674569E-02         XZ=  0.20428207E-01
                YY= -0.10161243E+02         YZ=  0.23087500E-01         ZZ= -0.12217263E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69920586E-01 Y= -0.39018085E-11 Z= -0.60631279E-06   Total=     0.06992059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25661483E+01         XY=  0.66065379E+00         XZ=  0.58489049E+00
                YY=  0.12448421E+01         YZ= -0.57288557E-05         ZZ=  0.12448304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4909342E-02 Y=  0.7251529E-09 Z=  0.4617541E-02  Total=      0.0067397
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114285E+02         XY=  0.24546708E-01         XZ=  0.44798284E-01
                YY= -0.10161243E+02         YZ=  0.23087701E-01         ZZ= -0.12217262E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59249291E-01 Y=  0.24698814E-12 Z= -0.41571069E-06   Total=     0.05924929
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23644888E+01         XY=  0.55982467E+00         XZ=  0.49587508E+00
                YY=  0.12448423E+01         YZ= -0.39278917E-05         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8544337E-02 Y=  0.7261642E-09 Z=  0.4617717E-02  Total=      0.0097123
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077935E+02         XY=  0.42721684E-01         XZ=  0.60908618E-01
                YY= -0.10161243E+02         YZ=  0.23088584E-01         ZZ= -0.12217260E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26032315E-01 Y=  0.64769614E-11 Z= -0.26941212E-06   Total=     0.02603231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17367775E+01         XY=  0.24596973E+00         XZ=  0.21816301E+00
                YY=  0.12448407E+01         YZ= -0.25455182E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8928207E-02 Y=  0.7276813E-09 Z=  0.4617718E-02  Total=      0.0100517
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074096E+02         XY=  0.44641033E-01         XZ=  0.62627128E-01
                YY= -0.10161243E+02         YZ=  0.23088589E-01         ZZ= -0.12217260E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17092223E-01 Y=  0.11879127E-10 Z= -0.36375685E-06   Total=     0.01709222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92184205E+00         XY= -0.16149810E+00         XZ= -0.14258397E+00
                YY=  0.12448394E+01         YZ= -0.34369012E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5914687E-02 Y=  0.7299930E-09 Z=  0.4617474E-02  Total=      0.0075036
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104231E+02         XY=  0.29573433E-01         XZ=  0.49298651E-01
                YY= -0.10161243E+02         YZ=  0.23087367E-01         ZZ= -0.12217263E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53715521E-01 Y=  0.13920908E-10 Z= -0.56198646E-06   Total=     0.05371552
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22976358E+00         XY= -0.50753812E+00         XZ= -0.44909925E+00
                YY=  0.12448402E+01         YZ= -0.53098823E-05         ZZ=  0.12448294E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6502650E-03 Y=  0.7323047E-09 Z=  0.4617253E-02  Total=      0.0046628
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156875E+02         XY=  0.32513229E-02         XZ=  0.25994927E-01
                YY= -0.10161243E+02         YZ=  0.23086265E-01         ZZ= -0.12217265E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69901619E-01 Y=  0.11605630E-10 Z= -0.58552220E-06   Total=     0.06990162
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.76108716E-01         XY= -0.66047458E+00         XZ= -0.58474324E+00
                YY=  0.12448418E+01         YZ= -0.55322820E-05         ZZ=  0.12448304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4861999E-02 Y=  0.7394566E-09 Z=  0.4617294E-02  Total=      0.0067051
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211998E+02         XY= -0.24309997E-01         XZ=  0.15836948E-02
                YY= -0.10161243E+02         YZ=  0.23086466E-01         ZZ= -0.12217265E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59490338E-01 Y=  0.59179840E-11 Z= -0.39916760E-06   Total=     0.05949034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12063476E+00         XY= -0.56210223E+00         XZ= -0.49789061E+00
                YY=  0.12448420E+01         YZ= -0.37715337E-05         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8524619E-02 Y=  0.7395288E-09 Z=  0.4617472E-02  Total=      0.0096949
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248625E+02         XY= -0.42623096E-01         XZ= -0.14646637E-01
                YY= -0.10161243E+02         YZ=  0.23087359E-01         ZZ= -0.12217262E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26441741E-01 Y= -0.64453571E-12 Z= -0.25748472E-06   Total=     0.02644174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74516128E+00         XY= -0.24983825E+00         XZ= -0.22157879E+00
                YY=  0.12448404E+01         YZ= -0.24328794E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8943804E-02 Y=  0.7387341E-09 Z=  0.4617477E-02  Total=      0.0100654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252817E+02         XY= -0.44719022E-01         XZ= -0.16520804E-01
                YY= -0.10161243E+02         YZ=  0.23087383E-01         ZZ= -0.12217262E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16670136E-01 Y= -0.52362029E-11 Z= -0.35118086E-06   Total=     0.01667014
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15598580E+01         XY=  0.15750996E+00         XZ=  0.13906088E+00
                YY=  0.12448392E+01         YZ= -0.33182178E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5959858E-02 Y=  0.7382285E-09 Z=  0.4617235E-02  Total=      0.0075391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222977E+02         XY= -0.29799290E-01         XZ= -0.33251251E-02
                YY= -0.10161243E+02         YZ=  0.23086175E-01         ZZ= -0.12217265E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53441357E-01 Y= -0.59771931E-11 Z= -0.54450237E-06   Total=     0.05344136
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22547349E+01         XY=  0.50494765E+00         XZ=  0.44680501E+00
                YY=  0.12448399E+01         YZ= -0.51448473E-05         ZZ=  0.12448295E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7080142E-03 Y=  0.7381562E-09 Z=  0.4617015E-02  Total=      0.0046710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170458E+02         XY= -0.35400729E-02         XZ=  0.19920964E-01
                YY= -0.10161243E+02         YZ=  0.23085075E-01         ZZ= -0.12217268E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69879742E-01 Y= -0.28120051E-11 Z= -0.56513042E-06   Total=     0.06987974
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25653760E+01         XY=  0.66026788E+00         XZ=  0.58455083E+00
                YY=  0.12448414E+01         YZ= -0.53397275E-05         ZZ=  0.12448305E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4813458E-02 Y=  0.7429963E-09 Z=  0.4617055E-02  Total=      0.0066698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115244E+02         XY=  0.24067288E-01         XZ=  0.44373236E-01
                YY= -0.10161243E+02         YZ=  0.23085275E-01         ZZ= -0.12217267E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59729175E-01 Y=  0.24821255E-11 Z= -0.38106520E-06   Total=     0.05972917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23735568E+01         XY=  0.56435891E+00         XZ=  0.49987426E+00
                YY=  0.12448417E+01         YZ= -0.36005187E-05         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8503579E-02 Y=  0.7429241E-09 Z=  0.4617236E-02  Total=      0.0096762
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078343E+02         XY=  0.42517893E-01         XZ=  0.60726674E-01
                YY= -0.10161243E+02         YZ=  0.23086179E-01         ZZ= -0.12217265E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26850550E-01 Y=  0.71330649E-11 Z= -0.24308591E-06   Total=     0.02685055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17522394E+01         XY=  0.25370093E+00         XZ=  0.22498156E+00
                YY=  0.12448402E+01         YZ= -0.22967641E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8958104E-02 Y=  0.7437910E-09 Z=  0.4617245E-02  Total=      0.0100780
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073798E+02         XY=  0.44790520E-01         XZ=  0.62756790E-01
                YY= -0.10161243E+02         YZ=  0.23086223E-01         ZZ= -0.12217265E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16246775E-01 Y=  0.86704014E-11 Z= -0.33672409E-06   Total=     0.01624677
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93781831E+00         XY= -0.15350977E+00         XZ= -0.13553854E+00
                YY=  0.12448389E+01         YZ= -0.31815036E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6003899E-02 Y=  0.7448024E-09 Z=  0.4617006E-02  Total=      0.0075739
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103340E+02         XY=  0.30019494E-01         XZ=  0.49689904E-01
                YY= -0.10161243E+02         YZ=  0.23085029E-01         ZZ= -0.12217267E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53164436E-01 Y=  0.60722575E-11 Z= -0.52683780E-06   Total=     0.05316444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24017714E+00         XY= -0.50233112E+00         XZ= -0.44450664E+00
                YY=  0.12448396E+01         YZ= -0.49778394E-05         ZZ=  0.12448296E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7648857E-03 Y=  0.7463917E-09 Z=  0.4616786E-02  Total=      0.0046797
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155730E+02         XY=  0.38244264E-02         XZ=  0.26498230E-01
                YY= -0.10161243E+02         YZ=  0.23083930E-01         ZZ= -0.12217270E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69854591E-01 Y=  0.23761073E-12 Z= -0.54642226E-06   Total=     0.06985459
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75220491E-01         XY= -0.66003024E+00         XZ= -0.58435106E+00
                YY=  0.12448412E+01         YZ= -0.51629343E-05         ZZ=  0.12448306E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4765551E-02 Y=  0.7533268E-09 Z=  0.4616826E-02  Total=      0.0066352
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211034E+02         XY= -0.23827756E-01         XZ=  0.20068545E-02
                YY= -0.10161243E+02         YZ=  0.23084129E-01         ZZ= -0.12217269E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59965381E-01 Y= -0.64325757E-11 Z= -0.36584840E-06   Total=     0.05996538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11165728E+00         XY= -0.56659074E+00         XZ= -0.50184926E+00
                YY=  0.12448414E+01         YZ= -0.34568141E-05         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8483024E-02 Y=  0.7541937E-09 Z=  0.4617009E-02  Total=      0.0096581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248209E+02         XY= -0.42415122E-01         XZ= -0.14465366E-01
                YY= -0.10161243E+02         YZ=  0.23085042E-01         ZZ= -0.12217267E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27258289E-01 Y= -0.11143777E-10 Z= -0.23180439E-06   Total=     0.02725829
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72973035E+00         XY= -0.25755350E+00         XZ= -0.22838368E+00
                YY=  0.12448399E+01         YZ= -0.21903209E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8972888E-02 Y=  0.7527489E-09 Z=  0.4617021E-02  Total=      0.0100911
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253108E+02         XY= -0.44864442E-01         XZ= -0.16651203E-01
                YY= -0.10161243E+02         YZ=  0.23085105E-01         ZZ= -0.12217267E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15822595E-01 Y= -0.11994404E-10 Z= -0.32474687E-06   Total=     0.01582260
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15438414E+01         XY=  0.14950186E+00         XZ=  0.13199755E+00
                YY=  0.12448387E+01         YZ= -0.30685069E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6048565E-02 Y=  0.7512318E-09 Z=  0.4616785E-02  Total=      0.0076092
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223865E+02         XY= -0.30242828E-01         XZ= -0.37184567E-02
                YY= -0.10161243E+02         YZ=  0.23083925E-01         ZZ= -0.12217270E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52885199E-01 Y= -0.88408468E-11 Z= -0.51038971E-06   Total=     0.05288520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22442246E+01         XY=  0.49969271E+00         XZ=  0.44217009E+00
                YY=  0.12448393E+01         YZ= -0.48225508E-05         ZZ=  0.12448297E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8226070E-03 Y=  0.7507984E-09 Z=  0.4616566E-02  Total=      0.0046893
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171605E+02         XY= -0.41130371E-02         XZ=  0.19413470E-01
                YY= -0.10161242E+02         YZ=  0.23082827E-01         ZZ= -0.12217272E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69826585E-01 Y= -0.33447507E-11 Z= -0.52740993E-06   Total=     0.06982659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25643710E+01         XY=  0.65976561E+00         XZ=  0.58410815E+00
                YY=  0.12448409E+01         YZ= -0.49833222E-05         ZZ=  0.12448307E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4716575E-02 Y=  0.7559274E-09 Z=  0.4616605E-02  Total=      0.0065999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116213E+02         XY=  0.23582871E-01         XZ=  0.43943850E-01
                YY= -0.10161242E+02         YZ=  0.23083024E-01         ZZ= -0.12217272E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60199362E-01 Y=  0.18144685E-11 Z= -0.34913798E-06   Total=     0.06019936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23824416E+01         XY=  0.56880154E+00         XZ=  0.50379352E+00
                YY=  0.12448411E+01         YZ= -0.32988528E-05         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8461276E-02 Y=  0.7554940E-09 Z=  0.4616790E-02  Total=      0.0096389
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078766E+02         XY=  0.42306378E-01         XZ=  0.60538048E-01
                YY= -0.10161242E+02         YZ=  0.23083947E-01         ZZ= -0.12217269E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27665372E-01 Y=  0.41935285E-11 Z= -0.21880986E-06   Total=     0.02766537
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17676369E+01         XY=  0.26139988E+00         XZ=  0.23177342E+00
                YY=  0.12448397E+01         YZ= -0.20674104E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8986504E-02 Y=  0.7541937E-09 Z=  0.4616806E-02  Total=      0.0101031
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073514E+02         XY=  0.44932518E-01         XZ=  0.62880063E-01
                YY= -0.10161242E+02         YZ=  0.23084029E-01         ZZ= -0.12217269E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15397149E-01 Y=  0.27237412E-11 Z= -0.31202992E-06   Total=     0.01539715
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95387352E+00         XY= -0.14548198E+00         XZ= -0.12845633E+00
                YY=  0.12448385E+01         YZ= -0.29482242E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6092236E-02 Y=  0.7528933E-09 Z=  0.4616573E-02  Total=      0.0076438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102457E+02         XY=  0.30461180E-01         XZ=  0.50077596E-01
                YY= -0.10161242E+02         YZ=  0.23082863E-01         ZZ= -0.12217272E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52603136E-01 Y= -0.17974427E-11 Z= -0.49490550E-06   Total=     0.05260314
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25078379E+00         XY= -0.49702760E+00         XZ= -0.43982739E+00
                YY=  0.12448391E+01         YZ= -0.46761857E-05         ZZ=  0.12448297E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8795979E-03 Y=  0.7529656E-09 Z=  0.4616353E-02  Total=      0.0046994
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154583E+02         XY=  0.43979878E-02         XZ=  0.27002280E-01
                YY= -0.10161242E+02         YZ=  0.23081765E-01         ZZ= -0.12217274E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69795137E-01 Y= -0.70857449E-11 Z= -0.51092814E-06   Total=     0.06979514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.74097397E-01         XY= -0.65946847E+00         XZ= -0.58385476E+00
                YY=  0.12448406E+01         YZ= -0.48276218E-05         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4668063E-02 Y=  0.7595395E-09 Z=  0.4616392E-02  Total=      0.0065652
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210060E+02         XY= -0.23340317E-01         XZ=  0.24349407E-02
                YY= -0.10161242E+02         YZ=  0.23081960E-01         ZZ= -0.12217274E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60430449E-01 Y= -0.10442105E-10 Z= -0.33571114E-06   Total=     0.06043045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10286832E+00         XY= -0.57098500E+00         XZ= -0.50572526E+00
                YY=  0.12448408E+01         YZ= -0.31720891E-05         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8439815E-02 Y=  0.7599729E-09 Z=  0.4616579E-02  Total=      0.0096199
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247778E+02         XY= -0.42199077E-01         XZ= -0.14276679E-01
                YY= -0.10161242E+02         YZ=  0.23082891E-01         ZZ= -0.12217271E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28071052E-01 Y= -0.10017351E-10 Z= -0.20888235E-06   Total=     0.02807105
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71437094E+00         XY= -0.26523301E+00         XZ= -0.23515822E+00
                YY=  0.12448394E+01         YZ= -0.19737271E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9000371E-02 Y=  0.7597562E-09 Z=  0.4616599E-02  Total=      0.0101153
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253383E+02         XY= -0.45001859E-01         XZ= -0.16774310E-01
                YY= -0.10161242E+02         YZ=  0.23082991E-01         ZZ= -0.12217271E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14971246E-01 Y= -0.56812823E-11 Z= -0.30142005E-06   Total=     0.01497125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15277528E+01         XY=  0.14145777E+00         XZ=  0.12490111E+00
                YY=  0.12448383E+01         YZ= -0.28480453E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6136266E-02 Y=  0.7596840E-09 Z=  0.4616368E-02  Total=      0.0076788
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224742E+02         XY= -0.30681331E-01         XZ= -0.41071706E-02
                YY= -0.10161242E+02         YZ=  0.23081838E-01         ZZ= -0.12217274E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52319102E-01 Y=  0.91195776E-12 Z= -0.48014585E-06   Total=     0.05231910
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22335265E+01         XY=  0.49434387E+00         XZ=  0.43745137E+00
                YY=  0.12448389E+01         YZ= -0.45367042E-05         ZZ=  0.12448298E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9371403E-03 Y=  0.7599007E-09 Z=  0.4616149E-02  Total=      0.0047103
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172751E+02         XY= -0.46857037E-02         XZ=  0.18906386E-01
                YY= -0.10161242E+02         YZ=  0.23080741E-01         ZZ= -0.12217276E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69761131E-01 Y=  0.70854504E-11 Z= -0.49373612E-06   Total=     0.06976113
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25631336E+01         XY=  0.65914716E+00         XZ=  0.58356280E+00
                YY=  0.12448403E+01         YZ= -0.46650619E-05         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4618808E-02 Y=  0.7658244E-09 Z=  0.4616187E-02  Total=      0.0065301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117191E+02         XY=  0.23094040E-01         XZ=  0.43510726E-01
                YY= -0.10161242E+02         YZ=  0.23080933E-01         ZZ= -0.12217276E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60659542E-01 Y=  0.10378077E-10 Z= -0.32059465E-06   Total=     0.06065954
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23911373E+01         XY=  0.57314961E+00         XZ=  0.50762997E+00
                YY=  0.12448406E+01         YZ= -0.30290845E-05         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8417509E-02 Y=  0.7670525E-09 Z=  0.4616375E-02  Total=      0.0096003
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079204E+02         XY=  0.42087544E-01         XZ=  0.60343159E-01
                YY= -0.10161242E+02         YZ=  0.23081874E-01         ZZ= -0.12217273E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28476234E-01 Y=  0.96780992E-11 Z= -0.19724852E-06   Total=     0.02847623
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17829596E+01         XY=  0.26906142E+00         XZ=  0.23853332E+00
                YY=  0.12448392E+01         YZ= -0.18636385E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9013436E-02 Y=  0.7658967E-09 Z=  0.4616399E-02  Total=      0.0101269
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073245E+02         XY=  0.45067177E-01         XZ=  0.62997103E-01
                YY= -0.10161242E+02         YZ=  0.23081992E-01         ZZ= -0.12217273E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14543990E-01 Y=  0.57260292E-11 Z= -0.29015171E-06   Total=     0.01454399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96999552E+00         XY= -0.13742079E+00         XZ= -0.12134375E+00
                YY=  0.12448380E+01         YZ= -0.27414798E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6179676E-02 Y=  0.7638739E-09 Z=  0.4616171E-02  Total=      0.0077135
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101583E+02         XY=  0.30898379E-01         XZ=  0.50461598E-01
                YY= -0.10161242E+02         YZ=  0.23080853E-01         ZZ= -0.12217276E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52032224E-01 Y=  0.75203387E-12 Z= -0.46632471E-06   Total=     0.05203222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26157207E+00         XY= -0.49163327E+00         XZ= -0.43506779E+00
                YY=  0.12448386E+01         YZ= -0.44061154E-05         ZZ=  0.12448298E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9943339E-03 Y=  0.7647408E-09 Z=  0.4615951E-02  Total=      0.0047218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153436E+02         XY=  0.49716677E-02         XZ=  0.27506694E-01
                YY= -0.10161242E+02         YZ=  0.23079755E-01         ZZ= -0.12217278E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69723728E-01 Y= -0.25812302E-11 Z= -0.47879824E-06   Total=     0.06972373
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.72748375E-01         XY= -0.65879375E+00         XZ= -0.58325953E+00
                YY=  0.12448401E+01         YZ= -0.45240014E-05         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4569636E-02 Y=  0.7715315E-09 Z=  0.4615989E-02  Total=      0.0064953
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209076E+02         XY= -0.22848181E-01         XZ=  0.28673741E-02
                YY= -0.10161242E+02         YZ=  0.23079944E-01         ZZ= -0.12217278E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60885845E-01 Y= -0.24308904E-11 Z= -0.30820542E-06   Total=     0.06088584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94262188E-01         XY= -0.57528786E+00         XZ= -0.50952222E+00
                YY=  0.12448403E+01         YZ= -0.29121320E-05         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8395111E-02 Y=  0.7714592E-09 Z=  0.4616179E-02  Total=      0.0095806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247331E+02         XY= -0.41975556E-01         XZ= -0.14081279E-01
                YY= -0.10161242E+02         YZ=  0.23080892E-01         ZZ= -0.12217275E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28880171E-01 Y=  0.13608648E-11 Z= -0.18796968E-06   Total=     0.02888017
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69908045E+00         XY= -0.27287807E+00         XZ= -0.24190441E+00
                YY=  0.12448390E+01         YZ= -0.17760375E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9026380E-02 Y=  0.7702311E-09 Z=  0.4616206E-02  Total=      0.0101383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253644E+02         XY= -0.45131901E-01         XZ= -0.16890885E-01
                YY= -0.10161242E+02         YZ=  0.23081028E-01         ZZ= -0.12217275E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14116082E-01 Y=  0.71935897E-11 Z= -0.28037122E-06   Total=     0.01411608
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15115922E+01         XY=  0.13337764E+00         XZ=  0.11777105E+00
                YY=  0.12448378E+01         YZ= -0.26490568E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6223083E-02 Y=  0.7701589E-09 Z=  0.4615981E-02  Total=      0.0077482
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225611E+02         XY= -0.31115415E-01         XZ= -0.44920275E-02
                YY= -0.10161242E+02         YZ=  0.23079902E-01         ZZ= -0.12217278E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51743167E-01 Y=  0.12460132E-10 Z= -0.45296271E-06   Total=     0.05174317
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22226426E+01         XY=  0.48890208E+00         XZ=  0.43264964E+00
                YY=  0.12448384E+01         YZ= -0.42797662E-05         ZZ=  0.12448299E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1051727E-02 Y=  0.7706646E-09 Z=  0.4615761E-02  Total=      0.0047341
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173897E+02         XY= -0.52586380E-02         XZ=  0.18399004E-01
                YY= -0.10161242E+02         YZ=  0.23078804E-01         ZZ= -0.12217280E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69683580E-01 Y=  0.14765488E-10 Z= -0.46335542E-06   Total=     0.06968358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25616678E+01         XY=  0.65841441E+00         XZ=  0.58291678E+00
                YY=  0.12448398E+01         YZ= -0.43779442E-05         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4520064E-02 Y=  0.7749990E-09 Z=  0.4615798E-02  Total=      0.0064604
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118179E+02         XY=  0.22600320E-01         XZ=  0.43073259E-01
                YY= -0.10161242E+02         YZ=  0.23078989E-01         ZZ= -0.12217280E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61110026E-01 Y=  0.13042234E-10 Z= -0.29466424E-06   Total=     0.06111003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23996498E+01         XY=  0.57740606E+00         XZ=  0.51138693E+00
                YY=  0.12448401E+01         YZ= -0.27840583E-05         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8372210E-02 Y=  0.7745656E-09 Z=  0.4615989E-02  Total=      0.0095604
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079658E+02         XY=  0.41861048E-01         XZ=  0.60141560E-01
                YY= -0.10161242E+02         YZ=  0.23079945E-01         ZZ= -0.12217277E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29283577E-01 Y=  0.80413673E-11 Z= -0.17748784E-06   Total=     0.02928358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17982158E+01         XY=  0.27668970E+00         XZ=  0.24526599E+00
                YY=  0.12448388E+01         YZ= -0.16769441E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9038869E-02 Y=  0.7747100E-09 Z=  0.4616020E-02  Total=      0.0101493
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072991E+02         XY=  0.45194343E-01         XZ=  0.63107681E-01
                YY= -0.10161242E+02         YZ=  0.23080100E-01         ZZ= -0.12217277E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13686734E-01 Y=  0.19756934E-11 Z= -0.26997845E-06   Total=     0.01368673
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98619499E+00         XY= -0.12932089E+00         XZ= -0.11419483E+00
                YY=  0.12448376E+01         YZ= -0.25509050E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6266234E-02 Y=  0.7744211E-09 Z=  0.4615798E-02  Total=      0.0077828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100718E+02         XY=  0.31331167E-01         XZ=  0.50841945E-01
                YY= -0.10161242E+02         YZ=  0.23078987E-01         ZZ= -0.12217279E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51451053E-01 Y= -0.25151286E-11 Z= -0.43987803E-06   Total=     0.05145105
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27255426E+00         XY= -0.48614200E+00         XZ= -0.43022107E+00
                YY=  0.12448382E+01         YZ= -0.41562615E-05         ZZ=  0.12448299E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1109160E-02 Y=  0.7751435E-09 Z=  0.4615578E-02  Total=      0.0047470
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152288E+02         XY=  0.55457981E-02         XZ=  0.28011789E-01
                YY= -0.10161242E+02         YZ=  0.23077889E-01         ZZ= -0.12217282E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69639707E-01 Y= -0.35858409E-11 Z= -0.44886657E-06   Total=     0.06963971
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.71160991E-01         XY= -0.65799987E+00         XZ= -0.58255862E+00
                YY=  0.12448396E+01         YZ= -0.42412003E-05         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4470154E-02 Y=  0.7826565E-09 Z=  0.4615614E-02  Total=      0.0064254
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208082E+02         XY= -0.22350774E-01         XZ=  0.33047388E-02
                YY= -0.10161242E+02         YZ=  0.23078070E-01         ZZ= -0.12217282E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61331001E-01 Y= -0.10227911E-11 Z= -0.28227803E-06   Total=     0.06133100
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85849569E-01         XY= -0.57949398E+00         XZ= -0.51323442E+00
                YY=  0.12448399E+01         YZ= -0.26671456E-05         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8348759E-02 Y=  0.7842458E-09 Z=  0.4615807E-02  Total=      0.0095398
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246868E+02         XY= -0.41743795E-01         XZ= -0.13878379E-01
                YY= -0.10161242E+02         YZ=  0.23079034E-01         ZZ= -0.12217279E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29685269E-01 Y=  0.36878281E-11 Z= -0.16801107E-06   Total=     0.02968527
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68386594E+00         XY= -0.28048515E+00         XZ= -0.24861854E+00
                YY=  0.12448386E+01         YZ= -0.15874400E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9050740E-02 Y=  0.7839569E-09 Z=  0.4615842E-02  Total=      0.0101598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253888E+02         XY= -0.45253702E-01         XZ= -0.17000034E-01
                YY= -0.10161242E+02         YZ=  0.23079206E-01         ZZ= -0.12217279E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13257213E-01 Y=  0.80829100E-11 Z= -0.26034292E-06   Total=     0.01325721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14953616E+01         XY=  0.12526251E+00         XZ=  0.11060835E+00
                YY=  0.12448375E+01         YZ= -0.24598131E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6308845E-02 Y=  0.7834512E-09 Z=  0.4615622E-02  Total=      0.0078170
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226469E+02         XY= -0.31544226E-01         XZ= -0.48721505E-02
                YY= -0.10161242E+02         YZ=  0.23078106E-01         ZZ= -0.12217281E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51157213E-01 Y=  0.98899159E-11 Z= -0.42726312E-06   Total=     0.05115721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22115693E+01         XY=  0.48336561E+00         XZ=  0.42776292E+00
                YY=  0.12448380E+01         YZ= -0.40369655E-05         ZZ=  0.12448300E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1166222E-02 Y=  0.7838846E-09 Z=  0.4615402E-02  Total=      0.0047605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175042E+02         XY= -0.58311107E-02         XZ=  0.17892061E-01
                YY= -0.10161242E+02         YZ=  0.23077008E-01         ZZ= -0.12217284E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69593484E-01 Y=  0.80853802E-11 Z= -0.43441438E-06   Total=     0.06959348
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25599648E+01         XY=  0.65756312E+00         XZ=  0.58216545E+00
                YY=  0.12448394E+01         YZ= -0.41045505E-05         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4420444E-02 Y=  0.7906753E-09 Z=  0.4615437E-02  Total=      0.0063908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119176E+02         XY=  0.22102220E-01         XZ=  0.42631950E-01
                YY= -0.10161242E+02         YZ=  0.23077185E-01         ZZ= -0.12217283E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61550165E-01 Y=  0.33555608E-11 Z= -0.26935570E-06   Total=     0.06155016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24079669E+01         XY=  0.58156477E+00         XZ=  0.51505779E+00
                YY=  0.12448396E+01         YZ= -0.25450120E-05         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8325424E-02 Y=  0.7914699E-09 Z=  0.4615631E-02  Total=      0.0095193
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080126E+02         XY=  0.41627119E-01         XZ=  0.59933447E-01
                YY= -0.10161242E+02         YZ=  0.23078155E-01         ZZ= -0.12217281E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30086643E-01 Y= -0.22482958E-11 Z= -0.15751876E-06   Total=     0.03008664
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18133912E+01         XY=  0.28427758E+00         XZ=  0.25196375E+00
                YY=  0.12448384E+01         YZ= -0.14883535E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9062788E-02 Y=  0.7912532E-09 Z=  0.4615670E-02  Total=      0.0101705
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072753E+02         XY=  0.45313940E-01         XZ=  0.63211667E-01
                YY= -0.10161242E+02         YZ=  0.23078346E-01         ZZ= -0.12217280E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12826141E-01 Y= -0.62827924E-11 Z= -0.24953436E-06   Total=     0.01282614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10024575E+01         XY= -0.12118947E+00         XZ= -0.10701720E+00
                YY=  0.12448373E+01         YZ= -0.23578091E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6351837E-02 Y=  0.7911809E-09 Z=  0.4615452E-02  Total=      0.0078516
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099862E+02         XY=  0.31759185E-01         XZ=  0.51218208E-01
                YY= -0.10161242E+02         YZ=  0.23077260E-01         ZZ= -0.12217283E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50860293E-01 Y= -0.70501565E-11 Z= -0.41362926E-06   Total=     0.05086029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28371769E+00         XY= -0.48056012E+00         XZ= -0.42529388E+00
                YY=  0.12448378E+01         YZ= -0.39082880E-05         ZZ=  0.12448300E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1223959E-02 Y=  0.7910365E-09 Z=  0.4615233E-02  Total=      0.0047748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151141E+02         XY=  0.61197935E-02         XZ=  0.28516899E-01
                YY= -0.10161242E+02         YZ=  0.23076161E-01         ZZ= -0.12217286E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69543578E-01 Y= -0.43687079E-11 Z= -0.41922413E-06   Total=     0.06954358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.69344754E-01         XY= -0.65709158E+00         XZ= -0.58175695E+00
                YY=  0.12448391E+01         YZ= -0.39611297E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4369765E-02 Y=  0.7958766E-09 Z=  0.4615267E-02  Total=      0.0063557
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207078E+02         XY= -0.21848825E-01         XZ=  0.37462195E-02
                YY= -0.10161242E+02         YZ=  0.23076334E-01         ZZ= -0.12217285E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61766203E-01 Y=  0.37586051E-12 Z= -0.25601736E-06   Total=     0.06176620
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77625104E-01         XY= -0.58360604E+00         XZ= -0.51686453E+00
                YY=  0.12448394E+01         YZ= -0.24190097E-05         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8300914E-02 Y=  0.7973936E-09 Z=  0.4615463E-02  Total=      0.0094978
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246390E+02         XY= -0.41504573E-01         XZ= -0.13668840E-01
                YY= -0.10161242E+02         YZ=  0.23077312E-01         ZZ= -0.12217282E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30486393E-01 Y=  0.49065112E-11 Z= -0.14706480E-06   Total=     0.03048639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66872656E+00         XY= -0.28805467E+00         XZ= -0.25530083E+00
                YY=  0.12448382E+01         YZ= -0.13895195E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9073600E-02 Y=  0.7985495E-09 Z=  0.4615504E-02  Total=      0.0101800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254117E+02         XY= -0.45368000E-01         XZ= -0.17102569E-01
                YY= -0.10161242E+02         YZ=  0.23077520E-01         ZZ= -0.12217282E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12394818E-01 Y=  0.71262214E-11 Z= -0.23939842E-06   Total=     0.01239482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14790644E+01         XY=  0.11711406E+00         XZ=  0.10341506E+00
                YY=  0.12448371E+01         YZ= -0.22619273E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6393676E-02 Y=  0.7981161E-09 Z=  0.4615290E-02  Total=      0.0078854
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227317E+02         XY= -0.31968382E-01         XZ= -0.52482177E-02
                YY= -0.10161242E+02         YZ=  0.23076447E-01         ZZ= -0.12217285E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50561592E-01 Y=  0.60785100E-11 Z= -0.40125095E-06   Total=     0.05056159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22003134E+01         XY=  0.47773780E+00         XZ=  0.42279504E+00
                YY=  0.12448376E+01         YZ= -0.37912210E-05         ZZ=  0.12448301E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1280714E-02 Y=  0.7982605E-09 Z=  0.4615070E-02  Total=      0.0047895
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176188E+02         XY= -0.64035728E-02         XZ=  0.17385068E-01
                YY= -0.10161242E+02         YZ=  0.23075348E-01         ZZ= -0.12217287E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69491291E-01 Y=  0.23522736E-11 Z= -0.40543779E-06   Total=     0.06949129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25580333E+01         XY=  0.65659755E+00         XZ=  0.58131368E+00
                YY=  0.12448389E+01         YZ= -0.38308125E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4319895E-02 Y=  0.8044732E-09 Z=  0.4615104E-02  Total=      0.0063214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120182E+02         XY=  0.21599472E-01         XZ=  0.42186516E-01
                YY= -0.10161242E+02         YZ=  0.23075516E-01         ZZ= -0.12217287E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61980420E-01 Y= -0.22447293E-11 Z= -0.24362699E-06   Total=     0.06198042
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24160972E+01         XY=  0.58563010E+00         XZ=  0.51864759E+00
                YY=  0.12448392E+01         YZ= -0.23019608E-05         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8277132E-02 Y=  0.8049067E-09 Z=  0.4615301E-02  Total=      0.0094769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080609E+02         XY=  0.41385656E-01         XZ=  0.59718737E-01
                YY= -0.10161242E+02         YZ=  0.23076501E-01         ZZ= -0.12217284E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30885829E-01 Y= -0.55706973E-11 Z= -0.13672930E-06   Total=     0.03088583
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18284933E+01         XY=  0.29182880E+00         XZ=  0.25863109E+00
                YY=  0.12448380E+01         YZ= -0.12919523E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9085200E-02 Y=  0.8031007E-09 Z=  0.4615346E-02  Total=      0.0101903
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072529E+02         XY=  0.45425998E-01         XZ=  0.63309139E-01
                YY= -0.10161242E+02         YZ=  0.23076728E-01         ZZ= -0.12217284E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11961930E-01 Y= -0.61652195E-11 Z= -0.22859241E-06   Total=     0.01196193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10187884E+01         XY= -0.11302386E+00         XZ= -0.99807507E-01
                YY=  0.12448369E+01         YZ= -0.21599383E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6436510E-02 Y=  0.8015114E-09 Z=  0.4615134E-02  Total=      0.0079201
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099016E+02         XY=  0.32182547E-01         XZ=  0.51590572E-01
                YY= -0.10161242E+02         YZ=  0.23075668E-01         ZZ= -0.12217286E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50259790E-01 Y= -0.39175252E-11 Z= -0.38774773E-06   Total=     0.05025979
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29506525E+00         XY= -0.47488619E+00         XZ= -0.42028422E+00
                YY=  0.12448374E+01         YZ= -0.36637196E-05         ZZ=  0.12448302E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1338761E-02 Y=  0.8020171E-09 Z=  0.4614914E-02  Total=      0.0048052
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149993E+02         XY=  0.66938036E-02         XZ=  0.29022268E-01
                YY= -0.10161242E+02         YZ=  0.23074569E-01         ZZ= -0.12217289E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69435300E-01 Y= -0.82185386E-13 Z= -0.39049621E-06   Total=     0.06943530
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.67298916E-01         XY= -0.65606850E+00         XZ= -0.58085379E+00
                YY=  0.12448387E+01         YZ= -0.36896570E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4268436E-02 Y=  0.8086632E-09 Z=  0.4614947E-02  Total=      0.0062863
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206065E+02         XY= -0.21342184E-01         XZ=  0.41920695E-02
                YY= -0.10161242E+02         YZ=  0.23074733E-01         ZZ= -0.12217288E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62191496E-01 Y=  0.33481878E-11 Z= -0.23049915E-06   Total=     0.06219150
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69587920E-01         XY= -0.58762447E+00         XZ= -0.52041293E+00
                YY=  0.12448390E+01         YZ= -0.21778752E-05         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8251553E-02 Y=  0.8103247E-09 Z=  0.4615145E-02  Total=      0.0094545
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245896E+02         XY= -0.41257769E-01         XZ= -0.13452442E-01
                YY= -0.10161242E+02         YZ=  0.23075724E-01         ZZ= -0.12217286E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31283653E-01 Y=  0.46030728E-11 Z= -0.12650428E-06   Total=     0.03128365
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65366024E+00         XY= -0.29558769E+00         XZ= -0.26195263E+00
                YY=  0.12448379E+01         YZ= -0.11952555E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9094945E-02 Y=  0.8111194E-09 Z=  0.4615194E-02  Total=      0.0101989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254330E+02         XY= -0.45474729E-01         XZ= -0.17198342E-01
                YY= -0.10161242E+02         YZ=  0.23075968E-01         ZZ= -0.12217285E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11528724E-01 Y=  0.29644818E-11 Z= -0.21896095E-06   Total=     0.01152872
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14626973E+01         XY=  0.10893066E+00         XZ=  0.96188916E-01
                YY=  0.12448368E+01         YZ= -0.20688580E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6477580E-02 Y=  0.8115528E-09 Z=  0.4614985E-02  Total=      0.0079534
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228157E+02         XY= -0.32387903E-01         XZ= -0.56201962E-02
                YY= -0.10161242E+02         YZ=  0.23074922E-01         ZZ= -0.12217288E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49956051E-01 Y= -0.91986456E-12 Z= -0.37619187E-06   Total=     0.04995605
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21888700E+01         XY=  0.47201627E+00         XZ=  0.41774277E+00
                YY=  0.12448373E+01         YZ= -0.35545074E-05         ZZ=  0.12448303E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1395234E-02 Y=  0.8117696E-09 Z=  0.4614765E-02  Total=      0.0048211
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177333E+02         XY= -0.69761741E-02         XZ=  0.16877894E-01
                YY= -0.10161242E+02         YZ=  0.23073821E-01         ZZ= -0.12217290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69376652E-01 Y= -0.53769104E-11 Z= -0.37745292E-06   Total=     0.06937665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25558667E+01         XY=  0.65551436E+00         XZ=  0.58035721E+00
                YY=  0.12448386E+01         YZ= -0.35664600E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4218351E-02 Y=  0.8163207E-09 Z=  0.4614796E-02  Total=      0.0062523
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121197E+02         XY=  0.21091752E-01         XZ=  0.41736618E-01
                YY= -0.10161242E+02         YZ=  0.23073980E-01         ZZ= -0.12217290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62400343E-01 Y= -0.85272501E-11 Z= -0.21829302E-06   Total=     0.06240034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24240323E+01         XY=  0.58959780E+00         XZ=  0.52215128E+00
                YY=  0.12448388E+01         YZ= -0.20626435E-05         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8227225E-02 Y=  0.8157428E-09 Z=  0.4614996E-02  Total=      0.0094332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081109E+02         XY=  0.41136123E-01         XZ=  0.59496852E-01
                YY= -0.10161242E+02         YZ=  0.23074977E-01         ZZ= -0.12217287E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31680636E-01 Y= -0.91830831E-11 Z= -0.11578920E-06   Total=     0.03168064
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18435127E+01         XY=  0.29933863E+00         XZ=  0.26526272E+00
                YY=  0.12448377E+01         YZ= -0.10941284E-05         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9105954E-02 Y=  0.8153094E-09 Z=  0.4615048E-02  Total=      0.0102087
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072322E+02         XY=  0.45529766E-01         XZ=  0.63399292E-01
                YY= -0.10161242E+02         YZ=  0.23075240E-01         ZZ= -0.12217286E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11094561E-01 Y= -0.73938158E-11 Z= -0.20774612E-06   Total=     0.01109456
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10351791E+01         XY= -0.10482841E+00         XZ= -0.92570331E-01
                YY=  0.12448367E+01         YZ= -0.19629805E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6520066E-02 Y=  0.8142980E-09 Z=  0.4614842E-02  Total=      0.0079880
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098180E+02         XY=  0.32600328E-01         XZ=  0.51958061E-01
                YY= -0.10161242E+02         YZ=  0.23074207E-01         ZZ= -0.12217289E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49649846E-01 Y= -0.43860567E-11 Z= -0.36280921E-06   Total=     0.04964985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30659125E+00         XY= -0.46912306E+00         XZ= -0.41519483E+00
                YY=  0.12448371E+01         YZ= -0.34280891E-05         ZZ=  0.12448304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1453365E-02 Y=  0.8142257E-09 Z=  0.4614622E-02  Total=      0.0048381
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148847E+02         XY=  0.72668236E-02         XZ=  0.29526848E-01
                YY= -0.10161242E+02         YZ=  0.23073106E-01         ZZ= -0.12217292E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69314905E-01 Y= -0.19363705E-11 Z= -0.36327104E-06   Total=     0.06931491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.65024065E-01         XY= -0.65493094E+00         XZ= -0.57984913E+00
                YY=  0.12448384E+01         YZ= -0.34324319E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4166362E-02 Y=  0.8206552E-09 Z=  0.4614652E-02  Total=      0.0062172
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205045E+02         XY= -0.20831810E-01         XZ=  0.46413052E-02
                YY= -0.10161242E+02         YZ=  0.23073260E-01         ZZ= -0.12217291E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62606583E-01 Y= -0.14853434E-11 Z= -0.20631522E-06   Total=     0.06260658
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61743628E-01         XY= -0.59154648E+00         XZ= -0.52387641E+00
                YY=  0.12448387E+01         YZ= -0.19494101E-05         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8200831E-02 Y=  0.8218833E-09 Z=  0.4614853E-02  Total=      0.0094101
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245390E+02         XY= -0.41004158E-01         XZ= -0.13229968E-01
                YY= -0.10161242E+02         YZ=  0.23074263E-01         ZZ= -0.12217289E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32076449E-01 Y= -0.34260414E-11 Z= -0.10692203E-06   Total=     0.03207645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63867833E+00         XY= -0.30307852E+00         XZ= -0.26856784E+00
                YY=  0.12448375E+01         YZ= -0.10102964E-05         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9114875E-02 Y=  0.8202217E-09 Z=  0.4614909E-02  Total=      0.0102166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254530E+02         XY= -0.45574376E-01         XZ= -0.17287829E-01
                YY= -0.10161242E+02         YZ=  0.23074542E-01         ZZ= -0.12217288E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10659724E-01 Y= -0.69121666E-11 Z= -0.19971886E-06   Total=     0.01065972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14462754E+01         XY=  0.10071979E+00         XZ=  0.88937819E-01
                YY=  0.12448365E+01         YZ= -0.18871283E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6560589E-02 Y=  0.8186324E-09 Z=  0.4614705E-02  Total=      0.0080210
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228987E+02         XY= -0.32802946E-01         XZ= -0.59882125E-02
                YY= -0.10161242E+02         YZ=  0.23073522E-01         ZZ= -0.12217290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49341404E-01 Y= -0.10274563E-10 Z= -0.35310398E-06   Total=     0.04934140
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21772547E+01         XY=  0.46620870E+00         XZ=  0.41261417E+00
                YY=  0.12448370E+01         YZ= -0.33364356E-05         ZZ=  0.12448304E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1509753E-02 Y=  0.8189214E-09 Z=  0.4614484E-02  Total=      0.0048552
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178479E+02         XY= -0.75487649E-02         XZ=  0.16370733E-01
                YY= -0.10161242E+02         YZ=  0.23072420E-01         ZZ= -0.12217293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69250220E-01 Y= -0.11843134E-10 Z= -0.35208248E-06   Total=     0.06925022
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25534772E+01         XY=  0.65431975E+00         XZ=  0.57930263E+00
                YY=  0.12448382E+01         YZ= -0.33267971E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4115884E-02 Y=  0.8236893E-09 Z=  0.4614514E-02  Total=      0.0061834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122222E+02         XY=  0.20579420E-01         XZ=  0.41282679E-01
                YY= -0.10161242E+02         YZ=  0.23072567E-01         ZZ= -0.12217293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62810295E-01 Y= -0.10773164E-10 Z= -0.19570549E-06   Total=     0.06281029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24317790E+01         XY=  0.59347128E+00         XZ=  0.52557267E+00
                YY=  0.12448385E+01         YZ= -0.18492398E-05         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8175794E-02 Y=  0.8234726E-09 Z=  0.4614715E-02  Total=      0.0093882
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081624E+02         XY=  0.40878966E-01         XZ=  0.59268315E-01
                YY= -0.10161242E+02         YZ=  0.23073575E-01         ZZ= -0.12217290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32471082E-01 Y= -0.74703554E-11 Z= -0.97628236E-07   Total=     0.03247108
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18584498E+01         XY=  0.30680726E+00         XZ=  0.27185922E+00
                YY=  0.12448374E+01         YZ= -0.92251633E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9125129E-02 Y=  0.8234003E-09 Z=  0.4614775E-02  Total=      0.0102257
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072130E+02         XY=  0.45625642E-01         XZ=  0.63482612E-01
                YY= -0.10161242E+02         YZ=  0.23073871E-01         ZZ= -0.12217289E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10224310E-01 Y= -0.34036017E-11 Z= -0.19013658E-06   Total=     0.01022431
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10516242E+01         XY= -0.96605724E-01         XZ= -0.85307944E-01
                YY=  0.12448364E+01         YZ= -0.17965592E-05         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6602558E-02 Y=  0.8244117E-09 Z=  0.4614573E-02  Total=      0.0080553
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097356E+02         XY=  0.33012787E-01         XZ=  0.52321030E-01
                YY= -0.10161242E+02         YZ=  0.23072865E-01         ZZ= -0.12217292E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49030911E-01 Y= -0.39284288E-12 Z= -0.34177564E-06   Total=     0.04903091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31828721E+00         XY= -0.46327496E+00         XZ= -0.41002983E+00
                YY=  0.12448368E+01         YZ= -0.32293152E-05         ZZ=  0.12448305E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1567787E-02 Y=  0.8256398E-09 Z=  0.4614353E-02  Total=      0.0048734
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147703E+02         XY=  0.78389349E-02         XZ=  0.30030816E-01
                YY= -0.10161241E+02         YZ=  0.23071761E-01         ZZ= -0.12217294E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69182874E-01 Y=  0.28560354E-12 Z= -0.34007839E-06   Total=     0.06918287
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.62529268E-01         XY= -0.65368342E+00         XZ= -0.57874761E+00
                YY=  0.12448381E+01         YZ= -0.32132724E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4063556E-02 Y=  0.8317803E-09 Z=  0.4614381E-02  Total=      0.0061486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204017E+02         XY= -0.20317782E-01         XZ=  0.50939284E-02
                YY= -0.10161241E+02         YZ=  0.23071902E-01         ZZ= -0.12217294E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63011858E-01 Y= -0.14608810E-11 Z= -0.18547228E-06   Total=     0.06301186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54084792E-01         XY= -0.59537578E+00         XZ= -0.52725908E+00
                YY=  0.12448384E+01         YZ= -0.17524707E-05         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8148786E-02 Y=  0.8334418E-09 Z=  0.4614583E-02  Total=      0.0093647
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244869E+02         XY= -0.40743933E-01         XZ= -0.13001554E-01
                YY= -0.10161242E+02         YZ=  0.23072915E-01         ZZ= -0.12217291E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32865033E-01 Y= -0.44761852E-11 Z= -0.89799340E-07   Total=     0.03286503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62377600E+00         XY= -0.31052956E+00         XZ= -0.27514951E+00
                YY=  0.12448373E+01         YZ= -0.84851742E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9133438E-02 Y=  0.8338030E-09 Z=  0.4614646E-02  Total=      0.0102330
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254716E+02         XY= -0.45667194E-01         XZ= -0.17371260E-01
                YY= -0.10161242E+02         YZ=  0.23073228E-01         ZZ= -0.12217290E+02
  Expectation value of momentum operator [a. u.]
    X=  0.97876844E-02 Y= -0.69079517E-11 Z= -0.18264407E-06   Total=     0.00978768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14297960E+01         XY=  0.92480215E-01         XZ=  0.81659744E-01
                YY=  0.12448363E+01         YZ= -0.17257933E-05         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6642757E-02 Y=  0.8324304E-09 Z=  0.4614447E-02  Total=      0.0080882
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229809E+02         XY= -0.33213786E-01         XZ= -0.63525571E-02
                YY= -0.10161241E+02         YZ=  0.23072234E-01         ZZ= -0.12217293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48717576E-01 Y= -0.71178855E-11 Z= -0.33245893E-06   Total=     0.04871758
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21654658E+01         XY=  0.46031438E+00         XZ=  0.40740784E+00
                YY=  0.12448367E+01         YZ= -0.31413405E-05         ZZ=  0.12448305E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1624328E-02 Y=  0.8319247E-09 Z=  0.4614226E-02  Total=      0.0048918
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179625E+02         XY= -0.81216422E-02         XZ=  0.15863248E-01
                YY= -0.10161241E+02         YZ=  0.23071128E-01         ZZ= -0.12217296E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69111910E-01 Y= -0.45127643E-11 Z= -0.32929294E-06   Total=     0.06911191
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25508633E+01         XY=  0.65301291E+00         XZ=  0.57814866E+00
                YY=  0.12448379E+01         YZ= -0.31114047E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4012429E-02 Y=  0.8377762E-09 Z=  0.4614253E-02  Total=      0.0061148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123257E+02         XY=  0.20062143E-01         XZ=  0.40824307E-01
                YY= -0.10161241E+02         YZ=  0.23071262E-01         ZZ= -0.12217295E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63210153E-01 Y=  0.11374866E-12 Z= -0.17530751E-06   Total=     0.06321015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24393350E+01         XY=  0.59724939E+00         XZ=  0.52891048E+00
                YY=  0.12448382E+01         YZ= -0.16564146E-05         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8122759E-02 Y=  0.8395100E-09 Z=  0.4614456E-02  Total=      0.0093420
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082154E+02         XY=  0.40613795E-01         XZ=  0.59032680E-01
                YY= -0.10161241E+02         YZ=  0.23072280E-01         ZZ= -0.12217293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33257038E-01 Y=  0.49104038E-11 Z= -0.81176477E-07   Total=     0.03325704
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18733020E+01         XY=  0.31423347E+00         XZ=  0.27841957E+00
                YY=  0.12448372E+01         YZ= -0.76696512E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9142640E-02 Y=  0.8413160E-09 Z=  0.4614522E-02  Total=      0.0102412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071955E+02         XY=  0.45713197E-01         XZ=  0.63558628E-01
                YY= -0.10161241E+02         YZ=  0.23072609E-01         ZZ= -0.12217292E+02
  Expectation value of momentum operator [a. u.]
    X= -0.93512270E-02 Y=  0.78268017E-11 Z= -0.17430163E-06   Total=     0.00935123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10681229E+01         XY= -0.88356290E-01         XZ= -0.78020412E-01
                YY=  0.12448362E+01         YZ= -0.16468458E-05         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6683900E-02 Y=  0.8430498E-09 Z=  0.4614326E-02  Total=      0.0081220
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096543E+02         XY=  0.33419500E-01         XZ=  0.52679033E-01
                YY= -0.10161241E+02         YZ=  0.23071628E-01         ZZ= -0.12217294E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48402859E-01 Y=  0.75972566E-11 Z= -0.32306514E-06   Total=     0.04840286
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33015546E+00         XY= -0.45734073E+00         XZ= -0.40478752E+00
                YY=  0.12448366E+01         YZ= -0.30524592E-05         ZZ=  0.12448306E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1681961E-02 Y=  0.8447114E-09 Z=  0.4614105E-02  Total=      0.0049111
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146562E+02         XY=  0.84098052E-02         XZ=  0.30533836E-01
                YY= -0.10161241E+02         YZ=  0.23070521E-01         ZZ= -0.12217297E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69038837E-01 Y=  0.43784063E-11 Z= -0.31956116E-06   Total=     0.06903884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.59807595E-01         XY= -0.65232247E+00         XZ= -0.57754535E+00
                YY=  0.12448378E+01         YZ= -0.30193783E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3960048E-02 Y=  0.8503461E-09 Z=  0.4614130E-02  Total=      0.0060805
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202982E+02         XY= -0.19800241E-01         XZ=  0.55498093E-02
                YY= -0.10161241E+02         YZ=  0.23070647E-01         ZZ= -0.12217296E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63406717E-01 Y= -0.27831139E-12 Z= -0.16709521E-06   Total=     0.06340672
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46622817E-01         XY= -0.59910665E+00         XZ= -0.53055501E+00
                YY=  0.12448381E+01         YZ= -0.15788230E-05         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8095392E-02 Y=  0.8515020E-09 Z=  0.4614334E-02  Total=      0.0093181
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244336E+02         XY= -0.40476964E-01         XZ= -0.12767051E-01
                YY= -0.10161241E+02         YZ=  0.23071668E-01         ZZ= -0.12217294E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33648657E-01 Y= -0.41249685E-11 Z= -0.74815685E-07   Total=     0.03364866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60896745E+00         XY= -0.31793373E+00         XZ= -0.28169052E+00
                YY=  0.12448370E+01         YZ= -0.70694032E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9150549E-02 Y=  0.8512853E-09 Z=  0.4614403E-02  Total=      0.0102482
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254887E+02         XY= -0.45752747E-01         XZ= -0.17448185E-01
                YY= -0.10161241E+02         YZ=  0.23072013E-01         ZZ= -0.12217293E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89133511E-02 Y= -0.52715464E-11 Z= -0.16790609E-06   Total=     0.00891335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14132733E+01         XY=  0.84218963E-01         XZ=  0.74361607E-01
                YY=  0.12448360E+01         YZ= -0.15865271E-05         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6723944E-02 Y=  0.8512130E-09 Z=  0.4614209E-02  Total=      0.0081549
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230621E+02         XY= -0.33619723E-01         XZ= -0.67125183E-02
                YY= -0.10161241E+02         YZ=  0.23071045E-01         ZZ= -0.12217295E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48085143E-01 Y= -0.30996305E-11 Z= -0.31483259E-06   Total=     0.04808514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21535143E+01         XY=  0.45433876E+00         XZ=  0.40212903E+00
                YY=  0.12448364E+01         YZ= -0.29747635E-05         ZZ=  0.12448306E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1738786E-02 Y=  0.8520077E-09 Z=  0.4613987E-02  Total=      0.0049307
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180770E+02         XY= -0.86939331E-02         XZ=  0.15356315E-01
                YY= -0.10161241E+02         YZ=  0.23069935E-01         ZZ= -0.12217298E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68962009E-01 Y=  0.14019480E-11 Z= -0.31001181E-06   Total=     0.06896201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25480303E+01         XY=  0.65159655E+00         XZ=  0.57689783E+00
                YY=  0.12448376E+01         YZ= -0.29291764E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3908168E-02 Y=  0.8564866E-09 Z=  0.4614011E-02  Total=      0.0060467
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124300E+02         XY=  0.19540839E-01         XZ=  0.40362425E-01
                YY= -0.10161241E+02         YZ=  0.23070054E-01         ZZ= -0.12217298E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63599880E-01 Y=  0.60571842E-11 Z= -0.15829136E-06   Total=     0.06359988
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24466996E+01         XY=  0.60093178E+00         XZ=  0.53216424E+00
                YY=  0.12448379E+01         YZ= -0.14955873E-05         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8068292E-02 Y=  0.8568478E-09 Z=  0.4614216E-02  Total=      0.0092945
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082699E+02         XY=  0.40341459E-01         XZ=  0.58790795E-01
                YY= -0.10161241E+02         YZ=  0.23071079E-01         ZZ= -0.12217295E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34038208E-01 Y=  0.84977016E-11 Z= -0.67697986E-07   Total=     0.03403821
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18880637E+01         XY=  0.32161446E+00         XZ=  0.28494088E+00
                YY=  0.12448369E+01         YZ= -0.63958381E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9158625E-02 Y=  0.8585816E-09 Z=  0.4614288E-02  Total=      0.0102553
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071796E+02         XY=  0.45793123E-01         XZ=  0.63628031E-01
                YY= -0.10161241E+02         YZ=  0.23071440E-01         ZZ= -0.12217294E+02
  Expectation value of momentum operator [a. u.]
    X= -0.84757354E-02 Y=  0.72761536E-11 Z= -0.16129541E-06   Total=     0.00847574
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10846671E+01         XY= -0.80084093E-01         XZ= -0.70711839E-01
                YY=  0.12448359E+01         YZ= -0.15239618E-05         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6764198E-02 Y=  0.8603876E-09 Z=  0.4614097E-02  Total=      0.0081881
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095740E+02         XY=  0.33820990E-01         XZ=  0.53032585E-01
                YY= -0.10161241E+02         YZ=  0.23070484E-01         ZZ= -0.12217296E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47766088E-01 Y=  0.25782485E-11 Z= -0.30725194E-06   Total=     0.04776609
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34218846E+00         XY= -0.45132413E+00         XZ= -0.39947189E+00
                YY=  0.12448363E+01         YZ= -0.29030905E-05         ZZ=  0.12448306E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1795965E-02 Y=  0.8621936E-09 Z=  0.4613875E-02  Total=      0.0049511
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145422E+02         XY=  0.89798226E-02         XZ=  0.31036280E-01
                YY= -0.10161241E+02         YZ=  0.23069372E-01         ZZ= -0.12217299E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68883057E-01 Y= -0.38098017E-11 Z= -0.30164714E-06   Total=     0.06888306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.56863997E-01         XY= -0.65085057E+00         XZ= -0.57624514E+00
                YY=  0.12448375E+01         YZ= -0.28501865E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3855773E-02 Y=  0.8676117E-09 Z=  0.4613897E-02  Total=      0.0060129
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201940E+02         XY= -0.19278869E-01         XZ=  0.60092341E-02
                YY= -0.10161241E+02         YZ=  0.23069483E-01         ZZ= -0.12217299E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63791245E-01 Y= -0.92799720E-11 Z= -0.15042457E-06   Total=     0.06379125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39356069E-01         XY= -0.60273992E+00         XZ= -0.53376545E+00
                YY=  0.12448378E+01         YZ= -0.14213864E-05         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8040586E-02 Y=  0.8671060E-09 Z=  0.4614102E-02  Total=      0.0092704
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243788E+02         XY= -0.40202934E-01         XZ= -0.12526198E-01
                YY= -0.10161241E+02         YZ=  0.23070510E-01         ZZ= -0.12217296E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34427269E-01 Y= -0.11578094E-10 Z= -0.60582075E-07   Total=     0.03442727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59425359E+00         XY= -0.32529055E+00         XZ= -0.28819084E+00
                YY=  0.12448368E+01         YZ= -0.57251734E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9166138E-02 Y=  0.8664558E-09 Z=  0.4614178E-02  Total=      0.0102620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255044E+02         XY= -0.45830690E-01         XZ= -0.17518328E-01
                YY= -0.10161241E+02         YZ=  0.23070888E-01         ZZ= -0.12217295E+02
  Expectation value of momentum operator [a. u.]
    X=  0.80368214E-02 Y= -0.98399006E-11 Z= -0.15360934E-06   Total=     0.00803682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13967091E+01         XY=  0.75936957E-01         XZ=  0.67043992E-01
                YY=  0.12448358E+01         YZ= -0.14514835E-05         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6804075E-02 Y=  0.8660224E-09 Z=  0.4613989E-02  Total=      0.0082210
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231423E+02         XY= -0.34020378E-01         XZ= -0.70677985E-02
                YY= -0.10161241E+02         YZ=  0.23069945E-01         ZZ= -0.12217297E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47444156E-01 Y= -0.50074611E-11 Z= -0.29797704E-06   Total=     0.04744416
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21414012E+01         XY=  0.44828230E+00         XZ=  0.39677808E+00
                YY=  0.12448362E+01         YZ= -0.28155206E-05         ZZ=  0.12448307E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1853051E-02 Y=  0.8660946E-09 Z=  0.4613767E-02  Total=      0.0049720
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181913E+02         XY= -0.92652585E-02         XZ=  0.14850230E-01
                YY= -0.10161241E+02         YZ=  0.23068832E-01         ZZ= -0.12217300E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68800469E-01 Y=  0.57578376E-12 Z= -0.29177598E-06   Total=     0.06880047
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25449775E+01         XY=  0.65007022E+00         XZ=  0.57554984E+00
                YY=  0.12448373E+01         YZ= -0.27568827E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3803170E-02 Y=  0.8711515E-09 Z=  0.4613787E-02  Total=      0.0059792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125350E+02         XY=  0.19015848E-01         XZ=  0.39897294E-01
                YY= -0.10161241E+02         YZ=  0.23068934E-01         ZZ= -0.12217300E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63979339E-01 Y=  0.42136632E-11 Z= -0.14206004E-06   Total=     0.06397934
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24538701E+01         XY=  0.60451715E+00         XZ=  0.53533302E+00
                YY=  0.12448377E+01         YZ= -0.13422419E-05         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8012446E-02 Y=  0.8725241E-09 Z=  0.4613993E-02  Total=      0.0092460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083258E+02         XY=  0.40062229E-01         XZ=  0.58542875E-01
                YY= -0.10161241E+02         YZ=  0.23069965E-01         ZZ= -0.12217297E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34814426E-01 Y=  0.40778460E-11 Z= -0.54510086E-07   Total=     0.03481443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19027319E+01         XY=  0.32894865E+00         XZ=  0.29142213E+00
                YY=  0.12448367E+01         YZ= -0.51501600E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9173128E-02 Y=  0.8738244E-09 Z=  0.4614072E-02  Total=      0.0102682
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071651E+02         XY=  0.45865637E-01         XZ=  0.63691001E-01
                YY= -0.10161241E+02         YZ=  0.23070358E-01         ZZ= -0.12217296E+02
  Expectation value of momentum operator [a. u.]
    X= -0.75979471E-02 Y=  0.45219126E-13 Z= -0.14845146E-06   Total=     0.00759795
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11012546E+01         XY= -0.71790196E-01         XZ= -0.63382713E-01
                YY=  0.12448357E+01         YZ= -0.14026672E-05         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6843491E-02 Y=  0.8739689E-09 Z=  0.4613886E-02  Total=      0.0082536
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094947E+02         XY=  0.34217455E-01         XZ=  0.53381870E-01
                YY= -0.10161241E+02         YZ=  0.23069427E-01         ZZ= -0.12217299E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47120595E-01 Y= -0.62314585E-11 Z= -0.29190402E-06   Total=     0.04712059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35438631E+00         XY= -0.44522510E+00         XZ= -0.39408241E+00
                YY=  0.12448361E+01         YZ= -0.27581501E-05         ZZ=  0.12448307E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1909845E-02 Y=  0.8738966E-09 Z=  0.4613663E-02  Total=      0.0049933
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144284E+02         XY=  0.95492230E-02         XZ=  0.31538383E-01
                YY= -0.10161241E+02         YZ=  0.23068311E-01         ZZ= -0.12217301E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68715402E-01 Y= -0.12054246E-10 Z= -0.28441318E-06   Total=     0.06871540
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.53696000E-01         XY= -0.64926646E+00         XZ= -0.57484546E+00
                YY=  0.12448372E+01         YZ= -0.26874209E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3750668E-02 Y=  0.8790257E-09 Z=  0.4613682E-02  Total=      0.0059459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200889E+02         XY= -0.18753343E-01         XZ=  0.64725295E-02
                YY= -0.10161241E+02         YZ=  0.23068406E-01         ZZ= -0.12217301E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64165235E-01 Y= -0.14886368E-10 Z= -0.13420752E-06   Total=     0.06416523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32288470E-01         XY= -0.60627361E+00         XZ= -0.53688831E+00
                YY=  0.12448375E+01         YZ= -0.12682073E-05         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7984284E-02 Y=  0.8797481E-09 Z=  0.4613888E-02  Total=      0.0092215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243225E+02         XY= -0.39921422E-01         XZ= -0.12278566E-01
                YY= -0.10161241E+02         YZ=  0.23069439E-01         ZZ= -0.12217298E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35200677E-01 Y= -0.13487813E-10 Z= -0.46427022E-07   Total=     0.03520068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57963809E+00         XY= -0.33259819E+00         XZ= -0.29464870E+00
                YY=  0.12448365E+01         YZ= -0.43879054E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9180104E-02 Y=  0.8797481E-09 Z=  0.4613970E-02  Total=      0.0102744
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255184E+02         XY= -0.45900522E-01         XZ= -0.17581188E-01
                YY= -0.10161241E+02         YZ=  0.23069849E-01         ZZ= -0.12217297E+02
  Expectation value of momentum operator [a. u.]
    X=  0.71581774E-02 Y= -0.84728202E-11 Z= -0.13935031E-06   Total=     0.00715818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13801049E+01         XY=  0.67634974E-01         XZ=  0.59707551E-01
                YY=  0.12448356E+01         YZ= -0.13167469E-05         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6883046E-02 Y=  0.8791702E-09 Z=  0.4613787E-02  Total=      0.0082863
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232213E+02         XY= -0.34415234E-01         XZ= -0.74178888E-02
                YY= -0.10161241E+02         YZ=  0.23068932E-01         ZZ= -0.12217300E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46794525E-01 Y= -0.20385539E-11 Z= -0.28139271E-06   Total=     0.04679452
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21291248E+01         XY=  0.44214418E+00         XZ=  0.39135404E+00
                YY=  0.12448359E+01         YZ= -0.26587995E-05         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1967032E-02 Y=  0.8790980E-09 Z=  0.4613563E-02  Total=      0.0050154
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183053E+02         XY= -0.98351601E-02         XZ=  0.14345440E-01
                YY= -0.10161241E+02         YZ=  0.23067815E-01         ZZ= -0.12217302E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68627027E-01 Y=  0.30094184E-11 Z= -0.27375284E-06   Total=     0.06862703
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25416997E+01         XY=  0.64843143E+00         XZ=  0.57410213E+00
                YY=  0.12448371E+01         YZ= -0.25865711E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3697501E-02 Y=  0.8845160E-09 Z=  0.4613581E-02  Total=      0.0059124
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126407E+02         XY=  0.18487504E-01         XZ=  0.39429235E-01
                YY= -0.10161241E+02         YZ=  0.23067902E-01         ZZ= -0.12217302E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64348153E-01 Y=  0.44955503E-11 Z= -0.12539929E-06   Total=     0.06434815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24608395E+01         XY=  0.60800194E+00         XZ=  0.53841326E+00
                YY=  0.12448374E+01         YZ= -0.11848209E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7955257E-02 Y=  0.8851662E-09 Z=  0.4613788E-02  Total=      0.0091964
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083830E+02         XY=  0.39776285E-01         XZ=  0.58289084E-01
                YY= -0.10161241E+02         YZ=  0.23068938E-01         ZZ= -0.12217299E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35585302E-01 Y=  0.18226522E-11 Z= -0.40108499E-07   Total=     0.03558530
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19172991E+01         XY=  0.33623237E+00         XZ=  0.29785964E+00
                YY=  0.12448364E+01         YZ= -0.37896209E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9186155E-02 Y=  0.8861053E-09 Z=  0.4613873E-02  Total=      0.0102798
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071521E+02         XY=  0.45930771E-01         XZ=  0.63747557E-01
                YY= -0.10161241E+02         YZ=  0.23069363E-01         ZZ= -0.12217298E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67181622E-02 Y= -0.37860330E-11 Z= -0.13413068E-06   Total=     0.00671816
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11178800E+01         XY= -0.63477433E-01         XZ= -0.56035852E-01
                YY=  0.12448355E+01         YZ= -0.12673900E-05         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6921766E-02 Y=  0.8862498E-09 Z=  0.4613692E-02  Total=      0.0083185
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094165E+02         XY=  0.34608830E-01         XZ=  0.53726810E-01
                YY= -0.10161241E+02         YZ=  0.23068459E-01         ZZ= -0.12217300E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46466516E-01 Y= -0.98517809E-11 Z= -0.27540780E-06   Total=     0.04646652
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36674641E+00         XY= -0.43904494E+00         XZ= -0.38862039E+00
                YY=  0.12448358E+01         YZ= -0.26023164E-05         ZZ=  0.12448308E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2023583E-02 Y=  0.8863220E-09 Z=  0.4613468E-02  Total=      0.0050378
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143147E+02         XY=  0.10117913E-01         XZ=  0.32040040E-01
                YY= -0.10161241E+02         YZ=  0.23067339E-01         ZZ= -0.12217303E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68535826E-01 Y= -0.13749421E-10 Z= -0.26639065E-06   Total=     0.06853583
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.50302695E-01         XY= -0.64756970E+00         XZ= -0.57334588E+00
                YY=  0.12448369E+01         YZ= -0.25171498E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3644743E-02 Y=  0.8909455E-09 Z=  0.4613484E-02  Total=      0.0058795
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199830E+02         XY= -0.18223717E-01         XZ=  0.69396314E-02
                YY= -0.10161241E+02         YZ=  0.23067417E-01         ZZ= -0.12217303E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64528488E-01 Y= -0.13860043E-10 Z= -0.11717265E-06   Total=     0.06452849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25423782E-01         XY= -0.60970585E+00         XZ= -0.53992178E+00
                YY=  0.12448373E+01         YZ= -0.11072454E-05         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7926478E-02 Y=  0.8910177E-09 Z=  0.4613692E-02  Total=      0.0091714
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242647E+02         XY= -0.39632392E-01         XZ= -0.12024132E-01
                YY= -0.10161241E+02         YZ=  0.23068457E-01         ZZ= -0.12217300E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35968603E-01 Y= -0.10257975E-10 Z= -0.31292468E-07   Total=     0.03596860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56512618E+00         XY= -0.33985405E+00         XZ= -0.30106148E+00
                YY=  0.12448363E+01         YZ= -0.29576546E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9192421E-02 Y=  0.8904398E-09 Z=  0.4613780E-02  Total=      0.0102853
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255307E+02         XY= -0.45962106E-01         XZ= -0.17636638E-01
                YY= -0.10161241E+02         YZ=  0.23068899E-01         ZZ= -0.12217299E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62776880E-02 Y= -0.46374597E-11 Z= -0.12435043E-06   Total=     0.00627769
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13634658E+01         XY=  0.59315556E-01         XZ=  0.52354854E-01
                YY=  0.12448354E+01         YZ= -0.11749888E-05         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6960814E-02 Y=  0.8885615E-09 Z=  0.4613602E-02  Total=      0.0083509
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232991E+02         XY= -0.34804072E-01         XZ= -0.77625773E-02
                YY= -0.10161241E+02         YZ=  0.23068008E-01         ZZ= -0.12217301E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46136439E-01 Y=  0.46995560E-12 Z= -0.26475253E-06   Total=     0.04613644
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21166885E+01         XY=  0.43592617E+00         XZ=  0.38585876E+00
                YY=  0.12448357E+01         YZ= -0.25015536E-05         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2080676E-02 Y=  0.8882725E-09 Z=  0.4613378E-02  Total=      0.0050609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184189E+02         XY= -0.10403383E-01         XZ=  0.13842196E-01
                YY= -0.10161241E+02         YZ=  0.23066888E-01         ZZ= -0.12217304E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68441749E-01 Y=  0.28246835E-11 Z= -0.25628458E-06   Total=     0.06844175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25381982E+01         XY=  0.64668081E+00         XZ=  0.57255539E+00
                YY=  0.12448368E+01         YZ= -0.24215232E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3591209E-02 Y=  0.8937628E-09 Z=  0.4613392E-02  Total=      0.0058464
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127471E+02         XY=  0.17956045E-01         XZ=  0.38958488E-01
                YY= -0.10161241E+02         YZ=  0.23066958E-01         ZZ= -0.12217304E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64706263E-01 Y=  0.14486263E-11 Z= -0.10943689E-06   Total=     0.06470626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24676065E+01         XY=  0.61138558E+00         XZ=  0.54140445E+00
                YY=  0.12448371E+01         YZ= -0.10340249E-05         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7896760E-02 Y=  0.8940518E-09 Z=  0.4613600E-02  Total=      0.0091457
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084415E+02         XY=  0.39483799E-01         XZ=  0.58029600E-01
                YY= -0.10161241E+02         YZ=  0.23068000E-01         ZZ= -0.12217301E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36350675E-01 Y= -0.29883286E-11 Z= -0.26320780E-07   Total=     0.03635068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19317624E+01         XY=  0.34346411E+00         XZ=  0.30425192E+00
                YY=  0.12448362E+01         YZ= -0.24872862E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9197721E-02 Y=  0.8945575E-09 Z=  0.4613692E-02  Total=      0.0102900
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071406E+02         XY=  0.45988605E-01         XZ=  0.63797786E-01
                YY= -0.10161241E+02         YZ=  0.23068456E-01         ZZ= -0.12217300E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58365925E-02 Y= -0.85140068E-11 Z= -0.12061390E-06   Total=     0.00583659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11345390E+01         XY= -0.55147807E-01         XZ= -0.48673321E-01
                YY=  0.12448353E+01         YZ= -0.11397159E-05         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6999019E-02 Y=  0.8944130E-09 Z=  0.4613516E-02  Total=      0.0083828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093393E+02         XY=  0.34995095E-01         XZ=  0.54067390E-01
                YY= -0.10161241E+02         YZ=  0.23067577E-01         ZZ= -0.12217302E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45804063E-01 Y= -0.12755375E-10 Z= -0.26022733E-06   Total=     0.04580406
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37926477E+00         XY= -0.43278568E+00         XZ= -0.38308795E+00
                YY=  0.12448356E+01         YZ= -0.24589073E-05         ZZ=  0.12448309E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2137158E-02 Y=  0.8944130E-09 Z=  0.4613291E-02  Total=      0.0050843
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142011E+02         XY=  0.10685789E-01         XZ=  0.32541147E-01
                YY= -0.10161241E+02         YZ=  0.23066454E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68344498E-01 Y= -0.13979236E-10 Z= -0.25003445E-06   Total=     0.06834450
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.46687299E-01         XY= -0.64576192E+00         XZ= -0.57174818E+00
                YY=  0.12448367E+01         YZ= -0.23626089E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3538030E-02 Y=  0.9002645E-09 Z=  0.4613303E-02  Total=      0.0058138
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198763E+02         XY= -0.17690150E-01         XZ=  0.74103772E-02
                YY= -0.10161241E+02         YZ=  0.23066515E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64881108E-01 Y= -0.11806761E-10 Z= -0.10164435E-06   Total=     0.06488111
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18760072E-01         XY= -0.61303762E+00         XZ= -0.54286697E+00
                YY=  0.12448370E+01         YZ= -0.96050758E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7867204E-02 Y=  0.9001200E-09 Z=  0.4613512E-02  Total=      0.0091202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242055E+02         XY= -0.39336020E-01         XZ= -0.11763080E-01
                YY= -0.10161241E+02         YZ=  0.23067559E-01         ZZ= -0.12217302E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36731076E-01 Y= -0.73033321E-11 Z= -0.17255120E-07   Total=     0.03673108
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55071736E+00         XY= -0.34705837E+00         XZ= -0.30742960E+00
                YY=  0.12448361E+01         YZ= -0.16310697E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9203120E-02 Y=  0.8995421E-09 Z=  0.4613607E-02  Total=      0.0102948
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255414E+02         XY= -0.46015603E-01         XZ= -0.17684854E-01
                YY= -0.10161241E+02         YZ=  0.23068032E-01         ZZ= -0.12217301E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53953918E-02 Y= -0.24347352E-11 Z= -0.11029053E-06   Total=     0.00539539
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13467927E+01         XY=  0.50979064E-01         XZ=  0.44986170E-01
                YY=  0.12448352E+01         YZ= -0.10421231E-05         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7037403E-02 Y=  0.8980973E-09 Z=  0.4613434E-02  Total=      0.0084148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233757E+02         XY= -0.35187016E-01         XZ= -0.81020018E-02
                YY= -0.10161241E+02         YZ=  0.23067169E-01         ZZ= -0.12217303E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45469980E-01 Y=  0.84069613E-12 Z= -0.24919330E-06   Total=     0.04546998
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21040941E+01         XY=  0.42962905E+00         XZ=  0.38029298E+00
                YY=  0.12448355E+01         YZ= -0.23545362E-05         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2194000E-02 Y=  0.8973026E-09 Z=  0.4613209E-02  Total=      0.0051084
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185323E+02         XY= -0.10970001E-01         XZ=  0.13340411E-01
                YY= -0.10161241E+02         YZ=  0.23066045E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68244737E-01 Y=  0.14211651E-11 Z= -0.23987392E-06   Total=     0.06824474
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25344751E+01         XY=  0.64481931E+00         XZ=  0.57091066E+00
                YY=  0.12448366E+01         YZ= -0.22664756E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3484289E-02 Y=  0.9024317E-09 Z=  0.4613220E-02  Total=      0.0057812
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128540E+02         XY=  0.17421443E-01         XZ=  0.38485018E-01
                YY= -0.10161241E+02         YZ=  0.23066097E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65053760E-01 Y= -0.51916015E-12 Z= -0.94046803E-07   Total=     0.06505376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24741731E+01         XY=  0.61466895E+00         XZ=  0.54430764E+00
                YY=  0.12448369E+01         YZ= -0.88862506E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7836956E-02 Y=  0.9032264E-09 Z=  0.4613429E-02  Total=      0.0090940
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085013E+02         XY=  0.39184780E-01         XZ=  0.57764435E-01
                YY= -0.10161241E+02         YZ=  0.23067143E-01         ZZ= -0.12217303E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37110616E-01 Y= -0.37002970E-11 Z= -0.12498594E-07   Total=     0.03711062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19461231E+01         XY=  0.35064451E+00         XZ=  0.31059990E+00
                YY=  0.12448361E+01         YZ= -0.11813273E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9207834E-02 Y=  0.9037321E-09 Z=  0.4613526E-02  Total=      0.0102990
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071305E+02         XY=  0.46039170E-01         XZ=  0.63841733E-01
                YY= -0.10161241E+02         YZ=  0.23067630E-01         ZZ= -0.12217302E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49531995E-02 Y= -0.63816913E-11 Z= -0.10692182E-06   Total=     0.00495320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11512326E+01         XY= -0.46800952E-01         XZ= -0.41294361E-01
                YY=  0.12448352E+01         YZ= -0.10103254E-05         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7075258E-02 Y=  0.9031541E-09 Z=  0.4613356E-02  Total=      0.0084464
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092630E+02         XY=  0.35376289E-01         XZ=  0.54403681E-01
                YY= -0.10161241E+02         YZ=  0.23066778E-01         ZZ= -0.12217304E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45133225E-01 Y= -0.71635227E-11 Z= -0.24528584E-06   Total=     0.04513322
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39194163E+00         XY= -0.42644717E+00         XZ= -0.37748454E+00
                YY=  0.12448354E+01         YZ= -0.23176826E-05         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2250578E-02 Y=  0.9040933E-09 Z=  0.4613131E-02  Total=      0.0051328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140877E+02         XY=  0.11252890E-01         XZ=  0.33041795E-01
                YY= -0.10161241E+02         YZ=  0.23065651E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68141421E-01 Y= -0.55742491E-11 Z= -0.23437103E-06   Total=     0.06814142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.42849845E-01         XY= -0.64384312E+00         XZ= -0.57005198E+00
                YY=  0.12448365E+01         YZ= -0.22145393E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3430520E-02 Y=  0.9107394E-09 Z=  0.4613139E-02  Total=      0.0057489
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197688E+02         XY= -0.17152600E-01         XZ=  0.78848679E-02
                YY= -0.10161241E+02         YZ=  0.23065694E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65223101E-01 Y= -0.21971199E-11 Z= -0.86847045E-07   Total=     0.06522310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12297192E-01         XY= -0.61626899E+00         XZ= -0.54572372E+00
                YY=  0.12448368E+01         YZ= -0.82061130E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7806453E-02 Y=  0.9117508E-09 Z=  0.4613349E-02  Total=      0.0090677
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241448E+02         XY= -0.39032268E-01         XZ= -0.11495308E-01
                YY= -0.10161241E+02         YZ=  0.23066741E-01         ZZ= -0.12217304E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37488112E-01 Y=  0.16845425E-11 Z= -0.37224121E-08   Total=     0.03748811
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53641132E+00         XY= -0.35421132E+00         XZ= -0.31375315E+00
                YY=  0.12448360E+01         YZ= -0.35164667E-07         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9212196E-02 Y=  0.9122565E-09 Z=  0.4613449E-02  Total=      0.0103028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255505E+02         XY= -0.46060980E-01         XZ= -0.17725740E-01
                YY= -0.10161241E+02         YZ=  0.23067245E-01         ZZ= -0.12217302E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45112479E-02 Y=  0.47217522E-11 Z= -0.96727783E-07   Total=     0.00451125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13300847E+01         XY=  0.42625115E-01         XZ=  0.37600954E-01
                YY=  0.12448351E+01         YZ= -0.91391241E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7112810E-02 Y=  0.9129066E-09 Z=  0.4613282E-02  Total=      0.0084779
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234511E+02         XY= -0.35564054E-01         XZ= -0.84361018E-02
                YY= -0.10161241E+02         YZ=  0.23066408E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44795055E-01 Y=  0.60996699E-11 Z= -0.23448120E-06   Total=     0.04479505
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20913398E+01         XY=  0.42325193E+00         XZ=  0.37465548E+00
                YY=  0.12448354E+01         YZ= -0.22154819E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2307010E-02 Y=  0.9134846E-09 Z=  0.4613057E-02  Total=      0.0051578
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186453E+02         XY= -0.11535054E-01         XZ=  0.12840078E-01
                YY= -0.10161241E+02         YZ=  0.23065281E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68035811E-01 Y=  0.58296254E-11 Z= -0.22465966E-06   Total=     0.06803581
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25305268E+01         XY=  0.64284525E+00         XZ=  0.56916580E+00
                YY=  0.12448364E+01         YZ= -0.21226838E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3376714E-02 Y=  0.9178913E-09 Z=  0.4613063E-02  Total=      0.0057169
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129616E+02         XY=  0.16883569E-01         XZ=  0.38008708E-01
                YY= -0.10161241E+02         YZ=  0.23065315E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65390372E-01 Y=  0.46286912E-11 Z= -0.79888436E-07   Total=     0.06539037
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24805340E+01         XY=  0.61784947E+00         XZ=  0.54711980E+00
                YY=  0.12448368E+01         YZ= -0.75480410E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7775795E-02 Y=  0.9321949E-09 Z=  0.4613273E-02  Total=      0.0090413
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085625E+02         XY=  0.38878971E-01         XZ=  0.57493326E-01
                YY= -0.10161241E+02         YZ=  0.23066363E-01         ZZ= -0.12217304E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37864774E-01 Y=  0.34831482E-11 Z=  0.19061886E-09   Total=     0.03786477
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19603744E+01         XY=  0.35777026E+00         XZ=  0.31689991E+00
                YY=  0.12448359E+01         YZ=  0.18235794E-08         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9216412E-02 Y=  0.9327729E-09 Z=  0.4613376E-02  Total=      0.0103066
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071219E+02         XY=  0.46082057E-01         XZ=  0.63878977E-01
                YY= -0.10161241E+02         YZ=  0.23066880E-01         ZZ= -0.12217303E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40683532E-02 Y=  0.31379102E-11 Z= -0.94525477E-07   Total=     0.00406835
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11679536E+01         XY= -0.38440367E-01         XZ= -0.33902736E-01
                YY=  0.12448350E+01         YZ= -0.89311694E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7150373E-02 Y=  0.9325561E-09 Z=  0.4613211E-02  Total=      0.0085094
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091880E+02         XY=  0.35751863E-01         XZ=  0.54735114E-01
                YY= -0.10161241E+02         YZ=  0.23066055E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44454303E-01 Y=  0.37681352E-11 Z= -0.23207526E-06   Total=     0.04445430
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40477124E+00         XY= -0.42003229E+00         XZ= -0.37181317E+00
                YY=  0.12448353E+01         YZ= -0.21927690E-05         ZZ=  0.12448310E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2363715E-02 Y=  0.9339287E-09 Z=  0.4612985E-02  Total=      0.0051833
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139746E+02         XY=  0.11818574E-01         XZ=  0.33541314E-01
                YY= -0.10161241E+02         YZ=  0.23064924E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67926737E-01 Y=  0.49757063E-11 Z= -0.22069969E-06   Total=     0.06792674
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.38793035E-01         XY= -0.64181465E+00         XZ= -0.56825867E+00
                YY=  0.12448363E+01         YZ= -0.20852755E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3322345E-02 Y=  0.9404304E-09 Z=  0.4612990E-02  Total=      0.0056849
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196607E+02         XY= -0.16611727E-01         XZ=  0.83624206E-02
                YY= -0.10161241E+02         YZ=  0.23064947E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65554379E-01 Y=  0.60804706E-11 Z= -0.73810904E-07   Total=     0.06555438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60368126E-02         XY= -0.61939911E+00         XZ= -0.54849114E+00
                YY=  0.12448367E+01         YZ= -0.69736829E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7744342E-02 Y=  0.9551675E-09 Z=  0.4613200E-02  Total=      0.0090142
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240827E+02         XY= -0.38721712E-01         XZ= -0.11221410E-01
                YY= -0.10161241E+02         YZ=  0.23065996E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38239369E-01 Y=  0.65284590E-11 Z=  0.85129863E-08   Total=     0.03823937
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52221447E+00         XY= -0.36130968E+00         XZ= -0.32002884E+00
                YY=  0.12448358E+01         YZ=  0.80483700E-07         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9219728E-02 Y=  0.9562511E-09 Z=  0.4613306E-02  Total=      0.0103095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255581E+02         XY= -0.46098642E-01         XZ= -0.17759715E-01
                YY= -0.10161241E+02         YZ=  0.23066530E-01         ZZ= -0.12217304E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36258004E-02 Y=  0.61882608E-11 Z= -0.84280633E-07   Total=     0.00362580
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13133520E+01         XY=  0.34258849E-01         XZ=  0.30204462E-01
                YY=  0.12448349E+01         YZ= -0.79629147E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7187071E-02 Y=  0.9553120E-09 Z=  0.4613144E-02  Total=      0.0085402
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235254E+02         XY= -0.35935357E-01         XZ= -0.87650552E-02
                YY= -0.10161241E+02         YZ=  0.23065719E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44112308E-01 Y=  0.53854587E-11 Z= -0.22109661E-06   Total=     0.04411231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20784376E+01         XY=  0.41680090E+00         XZ=  0.36895253E+00
                YY=  0.12448352E+01         YZ= -0.20890215E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2419693E-02 Y=  0.9547341E-09 Z=  0.4612918E-02  Total=      0.0052090
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187580E+02         XY= -0.12098469E-01         XZ=  0.12341272E-01
                YY= -0.10161241E+02         YZ=  0.23064588E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67815587E-01 Y=  0.46698976E-11 Z= -0.21094899E-06   Total=     0.06781559
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25263651E+01         XY=  0.64076443E+00         XZ=  0.56732687E+00
                YY=  0.12448362E+01         YZ= -0.19931462E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3268540E-02 Y=  0.9606578E-09 Z=  0.4612921E-02  Total=      0.0056535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130698E+02         XY=  0.16342698E-01         XZ=  0.37529851E-01
                YY= -0.10161241E+02         YZ=  0.23064603E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65716557E-01 Y=  0.44573767E-11 Z= -0.66988911E-07   Total=     0.06571656
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24866979E+01         XY=  0.62093148E+00         XZ=  0.54984558E+00
                YY=  0.12448366E+01         YZ= -0.63292239E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7713355E-02 Y=  0.9761173E-09 Z=  0.4613131E-02  Total=      0.0089876
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086250E+02         XY=  0.38566771E-01         XZ=  0.57216707E-01
                YY= -0.10161241E+02         YZ=  0.23065651E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38613375E-01 Y=  0.47558160E-11 Z=  0.12107668E-07   Total=     0.03861337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19745208E+01         XY=  0.36484352E+00         XZ=  0.32315444E+00
                YY=  0.12448357E+01         YZ=  0.11443430E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9223539E-02 Y=  0.9790070E-09 Z=  0.4613240E-02  Total=      0.0103129
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071148E+02         XY=  0.46117691E-01         XZ=  0.63909989E-01
                YY= -0.10161241E+02         YZ=  0.23066198E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31820730E-02 Y=  0.51363800E-11 Z= -0.82691483E-07   Total=     0.00318207
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11847017E+01         XY= -0.30066232E-01         XZ= -0.26498301E-01
                YY=  0.12448349E+01         YZ= -0.78128488E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7224436E-02 Y=  0.9797294E-09 Z=  0.4613080E-02  Total=      0.0085716
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091139E+02         XY=  0.36122178E-01         XZ=  0.55062108E-01
                YY= -0.10161241E+02         YZ=  0.23065399E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43767518E-01 Y=  0.49742722E-11 Z= -0.21969986E-06   Total=     0.04376752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41774946E+00         XY= -0.41354311E+00         XZ= -0.36607573E+00
                YY=  0.12448351E+01         YZ= -0.20758279E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2476616E-02 Y=  0.9811019E-09 Z=  0.4612853E-02  Total=      0.0052357
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138617E+02         XY=  0.12383078E-01         XZ=  0.34040005E-01
                YY= -0.10161240E+02         YZ=  0.23064264E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67700785E-01 Y=  0.38344247E-11 Z= -0.20830617E-06   Total=     0.06770079
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.34523305E-01         XY= -0.63967972E+00         XZ= -0.56637152E+00
                YY=  0.12448361E+01         YZ= -0.19681825E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3213489E-02 Y=  0.9883983E-09 Z=  0.4612854E-02  Total=      0.0056218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195518E+02         XY= -0.16067445E-01         XZ=  0.88431769E-02
                YY= -0.10161240E+02         YZ=  0.23064267E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65875324E-01 Y=  0.17869457E-11 Z= -0.62306408E-07   Total=     0.06587532
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.28308540E-04         XY= -0.62243161E+00         XZ= -0.55117322E+00
                YY=  0.12448365E+01         YZ= -0.58870137E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7680883E-02 Y=  0.1002268E-08 Z=  0.4613064E-02  Total=      0.0089597
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240192E+02         XY= -0.38404418E-01         XZ= -0.10941422E-01
                YY= -0.10161241E+02         YZ=  0.23065316E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38985227E-01 Y= -0.53332140E-12 Z=  0.19087259E-07   Total=     0.03898523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50811966E+00         XY= -0.36835702E+00         XZ= -0.32626090E+00
                YY=  0.12448357E+01         YZ=  0.18033845E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9225759E-02 Y=  0.1002630E-08 Z=  0.4613176E-02  Total=      0.0103148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255641E+02         XY= -0.46128798E-01         XZ= -0.17786992E-01
                YY= -0.10161241E+02         YZ=  0.23065878E-01         ZZ= -0.12217305E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27386846E-02 Y= -0.21846368E-11 Z= -0.73819592E-07   Total=     0.00273868
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12965878E+01         XY=  0.25876819E-01         XZ=  0.22792419E-01
                YY=  0.12448348E+01         YZ= -0.69751740E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7260255E-02 Y=  0.1001618E-08 Z=  0.4613019E-02  Total=      0.0086018
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235986E+02         XY= -0.36301276E-01         XZ= -0.90892524E-02
                YY= -0.10161240E+02         YZ=  0.23065094E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43421368E-01 Y= -0.23812357E-11 Z= -0.21024233E-06   Total=     0.04342137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20653806E+01         XY=  0.41027247E+00         XZ=  0.36317977E+00
                YY=  0.12448350E+01         YZ= -0.19865269E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2532148E-02 Y=  0.1000679E-08 Z=  0.4612792E-02  Total=      0.0052621
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188705E+02         XY= -0.12660744E-01         XZ=  0.11843423E-01
                YY= -0.10161240E+02         YZ=  0.23063958E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67583668E-01 Y= -0.93370038E-12 Z= -0.20014815E-06   Total=     0.06758367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25219823E+01         XY=  0.63857312E+00         XZ=  0.56538947E+00
                YY=  0.12448360E+01         YZ= -0.18911385E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3159637E-02 Y=  0.1005303E-08 Z=  0.4612791E-02  Total=      0.0055912
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131787E+02         XY=  0.15798181E-01         XZ=  0.37047700E-01
                YY= -0.10161240E+02         YZ=  0.23063951E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66031911E-01 Y=  0.15690134E-11 Z= -0.56913389E-07   Total=     0.06603191
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24926571E+01         XY=  0.62391114E+00         XZ=  0.55248084E+00
                YY=  0.12448364E+01         YZ= -0.53774538E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7649477E-02 Y=  0.1019317E-08 Z=  0.4613000E-02  Total=      0.0089328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086889E+02         XY=  0.38247382E-01         XZ=  0.56933675E-01
                YY= -0.10161240E+02         YZ=  0.23064999E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39356063E-01 Y=  0.39590857E-11 Z=  0.21544422E-07   Total=     0.03935606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19885554E+01         XY=  0.37186090E+00         XZ=  0.32936018E+00
                YY=  0.12448356E+01         YZ=  0.20359330E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9229034E-02 Y=  0.1021412E-08 Z=  0.4613115E-02  Total=      0.0103177
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071093E+02         XY=  0.46145169E-01         XZ=  0.63933770E-01
                YY= -0.10161240E+02         YZ=  0.23065574E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22945712E-02 Y=  0.50044321E-11 Z= -0.73204112E-07   Total=     0.00229457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12014730E+01         XY= -0.21680555E-01         XZ= -0.19082635E-01
                YY=  0.12448347E+01         YZ= -0.69164190E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7297262E-02 Y=  0.1022279E-08 Z=  0.4612961E-02  Total=      0.0086330
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090411E+02         XY=  0.36486308E-01         XZ=  0.55383662E-01
                YY= -0.10161240E+02         YZ=  0.23064801E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43072837E-01 Y=  0.40082873E-11 Z= -0.20987053E-06   Total=     0.04307284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43087690E+00         XY= -0.40697933E+00         XZ= -0.36027122E+00
                YY=  0.12448349E+01         YZ= -0.19829605E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2589113E-02 Y=  0.1023941E-08 Z=  0.4612733E-02  Total=      0.0052897
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137492E+02         XY=  0.12945561E-01         XZ=  0.34536985E-01
                YY= -0.10161240E+02         YZ=  0.23063661E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67463230E-01 Y=  0.12040156E-11 Z= -0.19861991E-06   Total=     0.06746323
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.30034279E-01         XY= -0.63743515E+00         XZ= -0.56438657E+00
                YY=  0.12448359E+01         YZ= -0.18766807E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3104076E-02 Y=  0.1030081E-08 Z=  0.4612729E-02  Total=      0.0055599
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194424E+02         XY= -0.15520381E-01         XZ=  0.93264952E-02
                YY= -0.10161240E+02         YZ=  0.23063642E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66185310E-01 Y= -0.22679976E-11 Z= -0.53276229E-07   Total=     0.06618531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.58863053E-02         XY= -0.62536055E+00         XZ= -0.55376328E+00
                YY=  0.12448363E+01         YZ= -0.50341057E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7616141E-02 Y=  0.1043085E-08 Z=  0.4612938E-02  Total=      0.0089042
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239545E+02         XY= -0.38080706E-01         XZ= -0.10655648E-01
                YY= -0.10161240E+02         YZ=  0.23064689E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39724869E-01 Y= -0.48231532E-11 Z=  0.27668971E-07   Total=     0.03972487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49414234E+00         XY= -0.37534562E+00         XZ= -0.33244096E+00
                YY=  0.12448355E+01         YZ=  0.26138967E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9230283E-02 Y=  0.1043085E-08 Z=  0.4613056E-02  Total=      0.0103188
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255687E+02         XY= -0.46151417E-01         XZ= -0.17807500E-01
                YY= -0.10161240E+02         YZ=  0.23065279E-01         ZZ= -0.12217306E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18507395E-02 Y= -0.51456905E-11 Z= -0.65085246E-07   Total=     0.00185074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12798079E+01         XY=  0.17486954E-01         XZ=  0.15373237E-01
                YY=  0.12448347E+01         YZ= -0.61501328E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7332292E-02 Y=  0.1042073E-08 Z=  0.4612904E-02  Total=      0.0086626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236707E+02         XY= -0.36661463E-01         XZ= -0.94082920E-02
                YY= -0.10161240E+02         YZ=  0.23064520E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42722908E-01 Y= -0.28281771E-11 Z= -0.20125728E-06   Total=     0.04272291
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20521815E+01         XY=  0.40367298E+00         XZ=  0.35734393E+00
                YY=  0.12448349E+01         YZ= -0.19016332E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2644263E-02 Y=  0.1041567E-08 Z=  0.4612676E-02  Total=      0.0053169
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189826E+02         XY= -0.13221315E-01         XZ=  0.11347155E-01
                YY= -0.10161240E+02         YZ=  0.23063379E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67340410E-01 Y=  0.13688029E-11 Z= -0.19147995E-06   Total=     0.06734041
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25173853E+01         XY=  0.63627467E+00         XZ=  0.56335718E+00
                YY=  0.12448359E+01         YZ= -0.18092160E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3050129E-02 Y=  0.1045468E-08 Z=  0.4612671E-02  Total=      0.0055299
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132882E+02         XY=  0.15250643E-01         XZ=  0.36562948E-01
                YY= -0.10161240E+02         YZ=  0.23063350E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66336397E-01 Y=  0.57824823E-11 Z= -0.49016124E-07   Total=     0.06633640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24984110E+01         XY=  0.62678811E+00         XZ=  0.55502532E+00
                YY=  0.12448362E+01         YZ= -0.46309114E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7584268E-02 Y=  0.1057749E-08 Z=  0.4612880E-02  Total=      0.0088769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087541E+02         XY=  0.37921336E-01         XZ=  0.56644829E-01
                YY= -0.10161240E+02         YZ=  0.23064396E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40092440E-01 Y=  0.85449944E-11 Z=  0.28905530E-07   Total=     0.04009244
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20024708E+01         XY=  0.37881866E+00         XZ=  0.33551334E+00
                YY=  0.12448355E+01         YZ=  0.27318491E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9232961E-02 Y=  0.1059339E-08 Z=  0.4613000E-02  Total=      0.0103212
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071054E+02         XY=  0.46164801E-01         XZ=  0.63950693E-01
                YY= -0.10161240E+02         YZ=  0.23064998E-01         ZZ= -0.12217307E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14064898E-02 Y=  0.84133443E-11 Z= -0.65889853E-07   Total=     0.00140649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12182551E+01         XY= -0.13289403E-01         XZ= -0.11662054E-01
                YY=  0.12448346E+01         YZ= -0.62250253E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7368855E-02 Y=  0.1061000E-08 Z=  0.4612850E-02  Total=      0.0086936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089695E+02         XY=  0.36844272E-01         XZ=  0.55699845E-01
                YY= -0.10161240E+02         YZ=  0.23064250E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42370987E-01 Y=  0.53559821E-11 Z= -0.20262139E-06   Total=     0.04237099
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44413983E+00         XY= -0.40034780E+00         XZ= -0.35440702E+00
                YY=  0.12448348E+01         YZ= -0.19144535E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2701152E-02 Y=  0.1063962E-08 Z=  0.4612621E-02  Total=      0.0053453
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136372E+02         XY=  0.13505760E-01         XZ=  0.35032010E-01
                YY= -0.10161240E+02         YZ=  0.23063104E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67214728E-01 Y=  0.61944296E-12 Z= -0.19191646E-06   Total=     0.06721473
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.25338353E-01         XY= -0.63508714E+00         XZ= -0.56231076E+00
                YY=  0.12448358E+01         YZ= -0.18133459E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2994207E-02 Y=  0.1071475E-08 Z=  0.4612613E-02  Total=      0.0054992
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193326E+02         XY= -0.14971036E-01         XZ=  0.98118619E-02
                YY= -0.10161240E+02         YZ=  0.23063063E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66484818E-01 Y= -0.37760634E-11 Z= -0.47282309E-07   Total=     0.06648482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.11546265E-01         XY= -0.62819049E+00         XZ= -0.55626679E+00
                YY=  0.12448362E+01         YZ= -0.44678760E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7550245E-02 Y=  0.1084840E-08 Z=  0.4612822E-02  Total=      0.0088478
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238886E+02         XY= -0.37751225E-01         XZ= -0.10364792E-01
                YY= -0.10161240E+02         YZ=  0.23064106E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40458563E-01 Y= -0.59037957E-11 Z=  0.33465147E-07   Total=     0.04045856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48027743E+00         XY= -0.38227802E+00         XZ= -0.33857254E+00
                YY=  0.12448354E+01         YZ=  0.31614770E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9233443E-02 Y=  0.1086501E-08 Z=  0.4612945E-02  Total=      0.0103216
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255718E+02         XY= -0.46167216E-01         XZ= -0.17822050E-01
                YY= -0.10161240E+02         YZ=  0.23064723E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X=  0.96188624E-03 Y= -0.47818849E-11 Z= -0.58891329E-07   Total=     0.00096189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12630109E+01         XY=  0.90885078E-02         XZ=  0.79453431E-02
                YY=  0.12448345E+01         YZ= -0.55648500E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7403326E-02 Y=  0.1086790E-08 Z=  0.4612798E-02  Total=      0.0087228
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237417E+02         XY= -0.37016634E-01         XZ= -0.97230117E-02
                YY= -0.10161240E+02         YZ=  0.23063989E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42016989E-01 Y= -0.82502205E-12 Z= -0.19467059E-06   Total=     0.04201699
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20388414E+01         XY=  0.39700301E+00         XZ=  0.35144502E+00
                YY=  0.12448347E+01         YZ= -0.18393798E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2756171E-02 Y=  0.1085490E-08 Z=  0.4612569E-02  Total=      0.0053733
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190946E+02         XY= -0.13780857E-01         XZ=  0.10851664E-01
                YY= -0.10161240E+02         YZ=  0.23062842E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67085965E-01 Y=  0.43098676E-11 Z= -0.18490957E-06   Total=     0.06708596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25125769E+01         XY=  0.63387050E+00         XZ=  0.56123131E+00
                YY=  0.12448357E+01         YZ= -0.17471084E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2939897E-02 Y=  0.1089246E-08 Z=  0.4612559E-02  Total=      0.0054698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133985E+02         XY=  0.14699483E-01         XZ=  0.36074868E-01
                YY= -0.10161240E+02         YZ=  0.23062791E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66630245E-01 Y=  0.84287847E-11 Z= -0.42541009E-07   Total=     0.06663025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25039638E+01         XY=  0.62956458E+00         XZ=  0.55748151E+00
                YY=  0.12448361E+01         YZ= -0.40188559E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7517628E-02 Y=  0.1100371E-08 Z=  0.4612767E-02  Total=      0.0088200
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088208E+02         XY=  0.37588138E-01         XZ=  0.56349572E-01
                YY= -0.10161240E+02         YZ=  0.23063832E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40822833E-01 Y=  0.97513044E-11 Z=  0.35668213E-07   Total=     0.04082283
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20162732E+01         XY=  0.38571987E+00         XZ=  0.34161764E+00
                YY=  0.12448353E+01         YZ=  0.33709602E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9235249E-02 Y=  0.1101238E-08 Z=  0.4612893E-02  Total=      0.0103232
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071032E+02         XY=  0.46176243E-01         XZ=  0.63960341E-01
                YY= -0.10161240E+02         YZ=  0.23064461E-01         ZZ= -0.12217308E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51737582E-03 Y=  0.76915529E-11 Z= -0.58691533E-07   Total=     0.00051738
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12350568E+01         XY= -0.48884930E-02         XZ= -0.42314609E-02
                YY=  0.12448345E+01         YZ= -0.55449106E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7439187E-02 Y=  0.1102900E-08 Z=  0.4612748E-02  Total=      0.0087532
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088992E+02         XY=  0.37195932E-01         XZ=  0.56010480E-01
                YY= -0.10161240E+02         YZ=  0.23063738E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41661372E-01 Y=  0.31235904E-11 Z= -0.19553891E-06   Total=     0.04166137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45754949E+00         XY= -0.39364292E+00         XZ= -0.34847666E+00
                YY=  0.12448347E+01         YZ= -0.18475491E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2812759E-02 Y=  0.1104345E-08 Z=  0.4612518E-02  Total=      0.0054025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135256E+02         XY=  0.14063791E-01         XZ=  0.35525193E-01
                YY= -0.10161240E+02         YZ=  0.23062588E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66954570E-01 Y= -0.19870074E-11 Z= -0.18564421E-06   Total=     0.06695457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.20422182E-01         XY= -0.63262900E+00         XZ= -0.56013668E+00
                YY=  0.12448356E+01         YZ= -0.17541000E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2883799E-02 Y=  0.1110774E-08 Z=  0.4612505E-02  Total=      0.0054398
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192222E+02         XY= -0.14418999E-01         XZ=  0.10299710E-01
                YY= -0.10161240E+02         YZ=  0.23062523E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66773110E-01 Y= -0.54238925E-11 Z= -0.41778390E-07   Total=     0.06677311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.16994299E-01         XY= -0.63091446E+00         XZ= -0.55867626E+00
                YY=  0.12448360E+01         YZ= -0.39479337E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7483057E-02 Y=  0.1123777E-08 Z=  0.4612713E-02  Total=      0.0087905
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238215E+02         XY= -0.37415285E-01         XZ= -0.10068123E-01
                YY= -0.10161240E+02         YZ=  0.23063562E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41185670E-01 Y= -0.56653454E-11 Z=  0.38938389E-07   Total=     0.04118567
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46653700E+00         XY= -0.38914818E+00         XZ= -0.34464928E+00
                YY=  0.12448353E+01         YZ=  0.36786795E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9235057E-02 Y=  0.1124789E-08 Z=  0.4612841E-02  Total=      0.0103230
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255735E+02         XY= -0.46175286E-01         XZ= -0.17829684E-01
                YY= -0.10161240E+02         YZ=  0.23064204E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72533683E-04 Y= -0.25247499E-11 Z= -0.52960799E-07   Total=     0.00007253
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12462045E+01         XY=  0.68534396E-03         XZ=  0.51268546E-03
                YY=  0.12448344E+01         YZ= -0.50042701E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7473154E-02 Y=  0.1124283E-08 Z=  0.4612700E-02  Total=      0.0087821
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238116E+02         XY= -0.37365774E-01         XZ= -0.10032348E-01
                YY= -0.10161240E+02         YZ=  0.23063496E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41303685E-01 Y=  0.27874460E-11 Z= -0.18859471E-06   Total=     0.04130368
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20253618E+01         XY=  0.39026326E+00         XZ=  0.34548366E+00
                YY=  0.12448346E+01         YZ= -0.17819370E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2867678E-02 Y=  0.1124211E-08 Z=  0.4612469E-02  Total=      0.0054312
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192061E+02         XY= -0.14338390E-01         XZ=  0.10357965E-01
                YY= -0.10161240E+02         YZ=  0.23062345E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66820038E-01 Y=  0.81990487E-11 Z= -0.17921159E-06   Total=     0.06682004
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25075515E+01         XY=  0.63135786E+00         XZ=  0.55900882E+00
                YY=  0.12448356E+01         YZ= -0.16932339E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2829101E-02 Y=  0.1130640E-08 Z=  0.4612454E-02  Total=      0.0054110
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135093E+02         XY=  0.14145505E-01         XZ=  0.35584284E-01
                YY= -0.10161240E+02         YZ=  0.23062269E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66912835E-01 Y=  0.11665404E-10 Z= -0.37119127E-07   Total=     0.06691283
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25093039E+01         XY=  0.63223466E+00         XZ=  0.55984311E+00
                YY=  0.12448359E+01         YZ= -0.35062535E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7449660E-02 Y=  0.1143860E-08 Z=  0.4612662E-02  Total=      0.0087621
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088888E+02         XY=  0.37248300E-01         XZ=  0.56048411E-01
                YY= -0.10161240E+02         YZ=  0.23063307E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41546404E-01 Y=  0.12024238E-10 Z=  0.41377161E-07   Total=     0.04154640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20299466E+01         XY=  0.39255663E+00         XZ=  0.34766460E+00
                YY=  0.12448352E+01         YZ=  0.39106043E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9235931E-02 Y=  0.1145161E-08 Z=  0.4612793E-02  Total=      0.0103238
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071025E+02         XY=  0.46179655E-01         XZ=  0.63962844E-01
                YY= -0.10161240E+02         YZ=  0.23063961E-01         ZZ= -0.12217309E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37186880E-03 Y=  0.94520514E-11 Z= -0.52607250E-07   Total=     0.00037187
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12518610E+01         XY=  0.35136510E-02         XZ=  0.31999937E-02
                YY=  0.12448344E+01         YZ= -0.49698475E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7508221E-02 Y=  0.1144655E-08 Z=  0.4612653E-02  Total=      0.0088119
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088302E+02         XY=  0.37541102E-01         XZ=  0.56315322E-01
                YY= -0.10161240E+02         YZ=  0.23063264E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40944805E-01 Y=  0.53387142E-11 Z= -0.18976085E-06   Total=     0.04094481
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47109053E+00         XY= -0.38687234E+00         XZ= -0.34248847E+00
                YY=  0.12448346E+01         YZ= -0.17929326E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2923838E-02 Y=  0.1144366E-08 Z=  0.4612422E-02  Total=      0.0054611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134146E+02         XY=  0.14619186E-01         XZ=  0.36015979E-01
                YY= -0.10161240E+02         YZ=  0.23062109E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66683355E-01 Y=  0.16545362E-11 Z= -0.18073781E-06   Total=     0.06668335
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.15297051E-01         XY= -0.63006639E+00         XZ= -0.55787058E+00
                YY=  0.12448355E+01         YZ= -0.17077079E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2772984E-02 Y=  0.1150796E-08 Z=  0.4612404E-02  Total=      0.0053818
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191114E+02         XY= -0.13864921E-01         XZ=  0.10789277E-01
                YY= -0.10161240E+02         YZ=  0.23062020E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67050500E-01 Y=  0.10044618E-12 Z= -0.37324422E-07   Total=     0.06705050
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.22236291E-01         XY= -0.63353541E+00         XZ= -0.56099513E+00
                YY=  0.12448359E+01         YZ= -0.35266069E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7414718E-02 Y=  0.1163799E-08 Z=  0.4612611E-02  Total=      0.0087324
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237531E+02         XY= -0.37073593E-01         XZ= -0.97664783E-02
                YY= -0.10161240E+02         YZ=  0.23063054E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41906199E-01 Y=  0.14094332E-11 Z=  0.43917974E-07   Total=     0.04190620
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45292088E+00         XY= -0.39595620E+00         XZ= -0.35067156E+00
                YY=  0.12448352E+01         YZ=  0.41497960E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9235254E-02 Y=  0.1164666E-08 Z=  0.4612745E-02  Total=      0.0103231
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255737E+02         XY= -0.46176274E-01         XZ= -0.17831188E-01
                YY= -0.10161240E+02         YZ=  0.23063721E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X= -0.81705485E-03 Y=  0.50870102E-11 Z= -0.47122564E-07   Total=     0.00081705
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12293936E+01         XY= -0.77200495E-02         XZ= -0.69222389E-02
                YY=  0.12448343E+01         YZ= -0.44519814E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7541874E-02 Y=  0.1164810E-08 Z=  0.4612608E-02  Total=      0.0088406
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238803E+02         XY= -0.37709374E-01         XZ= -0.10336925E-01
                YY= -0.10161240E+02         YZ=  0.23063039E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40583476E-01 Y=  0.96773623E-11 Z= -0.18253248E-06   Total=     0.04058348
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20117517E+01         XY=  0.38345828E+00         XZ=  0.33946470E+00
                YY=  0.12448345E+01         YZ= -0.17245980E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2978835E-02 Y=  0.1165388E-08 Z=  0.4612377E-02  Total=      0.0054907
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193172E+02         XY= -0.14894176E-01         XZ=  0.98656841E-02
                YY= -0.10161240E+02         YZ=  0.23061883E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66543256E-01 Y=  0.13412642E-10 Z= -0.17351079E-06   Total=     0.06654326
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25023210E+01         XY=  0.62874265E+00         XZ=  0.55669620E+00
                YY=  0.12448354E+01         YZ= -0.16393241E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2717743E-02 Y=  0.1171384E-08 Z=  0.4612357E-02  Total=      0.0053535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136207E+02         XY=  0.13588714E-01         XZ=  0.35091120E-01
                YY= -0.10161240E+02         YZ=  0.23061784E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67184867E-01 Y=  0.14950048E-10 Z= -0.31408422E-07   Total=     0.06718487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25144445E+01         XY=  0.63480500E+00         XZ=  0.56211754E+00
                YY=  0.12448358E+01         YZ= -0.29663829E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7380423E-02 Y=  0.1182943E-08 Z=  0.4612564E-02  Total=      0.0087032
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089580E+02         XY=  0.36902112E-01         XZ=  0.55741594E-01
                YY= -0.10161240E+02         YZ=  0.23062816E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42263865E-01 Y=  0.13880760E-10 Z=  0.47887905E-07   Total=     0.04226387
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20435045E+01         XY=  0.39933565E+00         XZ=  0.35366186E+00
                YY=  0.12448351E+01         YZ=  0.45259473E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9235121E-02 Y=  0.1184532E-08 Z=  0.4612700E-02  Total=      0.0103230
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071033E+02         XY=  0.46175601E-01         XZ=  0.63958766E-01
                YY= -0.10161240E+02         YZ=  0.23063496E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12619059E-02 Y=  0.10818508E-10 Z= -0.45347186E-07   Total=     0.00126191
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12686802E+01         XY=  0.11923283E-01         XZ=  0.10639417E-01
                YY=  0.12448343E+01         YZ= -0.42837464E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7576118E-02 Y=  0.1186193E-08 Z=  0.4612566E-02  Total=      0.0088698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087623E+02         XY=  0.37880589E-01         XZ=  0.56615214E-01
                YY= -0.10161240E+02         YZ=  0.23062826E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40220732E-01 Y=  0.70636073E-11 Z= -0.18279279E-06   Total=     0.04022073
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48477344E+00         XY= -0.38003084E+00         XZ= -0.33643653E+00
                YY=  0.12448344E+01         YZ= -0.17270788E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3034588E-02 Y=  0.1187783E-08 Z=  0.4612334E-02  Total=      0.0055211
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133038E+02         XY=  0.15172940E-01         XZ=  0.36505424E-01
                YY= -0.10161240E+02         YZ=  0.23061667E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66400689E-01 Y=  0.40204604E-11 Z= -0.17479749E-06   Total=     0.06640069
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.99555169E-02         XY= -0.62739559E+00         XZ= -0.55550836E+00
                YY=  0.12448354E+01         YZ= -0.16515597E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2661537E-02 Y=  0.1195151E-08 Z=  0.4612311E-02  Total=      0.0053251
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190000E+02         XY= -0.13307689E-01         XZ=  0.11281749E-01
                YY= -0.10161240E+02         YZ=  0.23061554E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67316798E-01 Y=  0.26343943E-11 Z= -0.31831068E-07   Total=     0.06731680
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.27268658E-01         XY= -0.63605156E+00         XZ= -0.56322153E+00
                YY=  0.12448358E+01         YZ= -0.30073467E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7345002E-02 Y=  0.1206999E-08 Z=  0.4612517E-02  Total=      0.0086732
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236834E+02         XY= -0.36725012E-01         XZ= -0.94586466E-02
                YY= -0.10161240E+02         YZ=  0.23062583E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42620195E-01 Y=  0.30770619E-11 Z=  0.50158926E-07   Total=     0.04262019
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43942824E+00         XY= -0.40270248E+00         XZ= -0.35664005E+00
                YY=  0.12448351E+01         YZ=  0.47396193E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9233822E-02 Y=  0.1207071E-08 Z=  0.4612656E-02  Total=      0.0103218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255723E+02         XY= -0.46169113E-01         XZ= -0.17825434E-01
                YY= -0.10161240E+02         YZ=  0.23063276E-01         ZZ= -0.12217310E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17071631E-02 Y=  0.47828229E-11 Z= -0.39823158E-07   Total=     0.00170716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12125729E+01         XY= -0.16130354E-01         XZ= -0.14362676E-01
                YY=  0.12448342E+01         YZ= -0.37623141E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7609305E-02 Y=  0.1205987E-08 Z=  0.4612524E-02  Total=      0.0088981
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239477E+02         XY= -0.38046528E-01         XZ= -0.10635804E-01
                YY= -0.10161240E+02         YZ=  0.23062620E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39855858E-01 Y=  0.67739223E-11 Z= -0.17499504E-06   Total=     0.03985586
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19980016E+01         XY=  0.37658329E+00         XZ=  0.33338260E+00
                YY=  0.12448344E+01         YZ= -0.16534038E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3089511E-02 Y=  0.1204976E-08 Z=  0.4612293E-02  Total=      0.0055514
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194279E+02         XY= -0.15447555E-01         XZ=  0.93754811E-02
                YY= -0.10161240E+02         YZ=  0.23061461E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66254943E-01 Y=  0.81013374E-11 Z= -0.16637238E-06   Total=     0.06625494
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24968726E+01         XY=  0.62601849E+00         XZ=  0.55428622E+00
                YY=  0.12448353E+01         YZ= -0.15719202E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2605894E-02 Y=  0.1210250E-08 Z=  0.4612268E-02  Total=      0.0052975
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137325E+02         XY=  0.13029469E-01         XZ=  0.34595701E-01
                YY= -0.10161240E+02         YZ=  0.23061339E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67445571E-01 Y=  0.82019437E-11 Z= -0.24139781E-07   Total=     0.06744557
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25193710E+01         XY=  0.63726829E+00         XZ=  0.56429672E+00
                YY=  0.12448357E+01         YZ= -0.22801564E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7309923E-02 Y=  0.1221158E-08 Z=  0.4612474E-02  Total=      0.0086435
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090285E+02         XY=  0.36549611E-01         XZ=  0.55429093E-01
                YY= -0.10161240E+02         YZ=  0.23062366E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42974446E-01 Y=  0.70392585E-11 Z=  0.56189228E-07   Total=     0.04297445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20569325E+01         XY=  0.40604967E+00         XZ=  0.35960146E+00
                YY=  0.12448350E+01         YZ=  0.53097397E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9232764E-02 Y=  0.1223036E-08 Z=  0.4612615E-02  Total=      0.0103209
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071057E+02         XY=  0.46163817E-01         XZ=  0.63947754E-01
                YY= -0.10161240E+02         YZ=  0.23063072E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21520690E-02 Y=  0.50131687E-11 Z= -0.36205693E-07   Total=     0.00215207
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12855017E+01         XY=  0.20334105E-01         XZ=  0.18080075E-01
                YY=  0.12448342E+01         YZ= -0.34204849E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7642778E-02 Y=  0.1224626E-08 Z=  0.4612486E-02  Total=      0.0089268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086957E+02         XY=  0.38213888E-01         XZ=  0.56909551E-01
                YY= -0.10161240E+02         YZ=  0.23062429E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39489617E-01 Y=  0.27229953E-11 Z= -0.17408539E-06   Total=     0.03948962
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49858941E+00         XY= -0.37312281E+00         XZ= -0.33032540E+00
                YY=  0.12448343E+01         YZ= -0.16448422E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3144882E-02 Y=  0.1225492E-08 Z=  0.4612254E-02  Total=      0.0055824
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131935E+02         XY=  0.15724408E-01         XZ=  0.36992783E-01
                YY= -0.10161240E+02         YZ=  0.23061267E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66106766E-01 Y=  0.72042538E-12 Z= -0.16725168E-06   Total=     0.06610677
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.44012536E-02         XY= -0.62461842E+00         XZ= -0.55305171E+00
                YY=  0.12448352E+01         YZ= -0.15802903E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2549594E-02 Y=  0.1230766E-08 Z=  0.4612227E-02  Total=      0.0052700
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188880E+02         XY= -0.12747970E-01         XZ=  0.11776371E-01
                YY= -0.10161240E+02         YZ=  0.23061131E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67571898E-01 Y= -0.64155797E-12 Z= -0.24584925E-07   Total=     0.06757190
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.32089416E-01         XY= -0.63846191E+00         XZ= -0.56535408E+00
                YY=  0.12448356E+01         YZ= -0.23229660E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7274021E-02 Y=  0.1241096E-08 Z=  0.4612431E-02  Total=      0.0086131
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236125E+02         XY= -0.36370106E-01         XZ= -0.91452635E-02
                YY= -0.10161240E+02         YZ=  0.23062154E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43327276E-01 Y= -0.12319637E-11 Z=  0.58498046E-07   Total=     0.04332728
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42606626E+00         XY= -0.40938342E+00         XZ= -0.36255056E+00
                YY=  0.12448350E+01         YZ=  0.55271855E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9230833E-02 Y=  0.1241891E-08 Z=  0.4612575E-02  Total=      0.0103191
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255693E+02         XY= -0.46154167E-01         XZ= -0.17812832E-01
                YY= -0.10161240E+02         YZ=  0.23062873E-01         ZZ= -0.12217311E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25972104E-02 Y= -0.10794630E-11 Z= -0.30265321E-07   Total=     0.00259721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11957533E+01         XY= -0.24540082E-01         XZ= -0.21802406E-01
                YY=  0.12448341E+01         YZ= -0.28597241E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7675469E-02 Y=  0.1241891E-08 Z=  0.4612449E-02  Total=      0.0089547
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240139E+02         XY= -0.38377345E-01         XZ= -0.10929106E-01
                YY= -0.10161240E+02         YZ=  0.23062245E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39121498E-01 Y= -0.30086073E-12 Z= -0.16545021E-06   Total=     0.03912150
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19841242E+01         XY=  0.36964459E+00         XZ=  0.32724447E+00
                YY=  0.12448343E+01         YZ= -0.15632778E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3199674E-02 Y=  0.1241096E-08 Z=  0.4612217E-02  Total=      0.0056134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195381E+02         XY= -0.15998370E-01         XZ=  0.88875343E-02
                YY= -0.10161240E+02         YZ=  0.23061084E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65955723E-01 Y=  0.92243964E-12 Z= -0.15767811E-06   Total=     0.06595572
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24912181E+01         XY=  0.62319127E+00         XZ=  0.55178561E+00
                YY=  0.12448352E+01         YZ= -0.14898316E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2493631E-02 Y=  0.1245648E-08 Z=  0.4612188E-02  Total=      0.0052431
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138448E+02         XY=  0.12468153E-01         XZ=  0.34098463E-01
                YY= -0.10161240E+02         YZ=  0.23060939E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67695416E-01 Y=  0.23196233E-11 Z= -0.15570731E-07   Total=     0.06769542
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25240923E+01         XY=  0.63962898E+00         XZ=  0.56638585E+00
                YY=  0.12448356E+01         YZ= -0.14709981E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7238265E-02 Y=  0.1254606E-08 Z=  0.4612392E-02  Total=      0.0085829
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091002E+02         XY=  0.36191323E-01         XZ=  0.55111520E-01
                YY= -0.10161240E+02         YZ=  0.23061960E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43678386E-01 Y=  0.35111730E-11 Z=  0.65860335E-07   Total=     0.04367839
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20702349E+01         XY=  0.41270093E+00         XZ=  0.36548636E+00
                YY=  0.12448349E+01         YZ=  0.62232198E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9228976E-02 Y=  0.1254678E-08 Z=  0.4612539E-02  Total=      0.0103174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071095E+02         XY=  0.46144879E-01         XZ=  0.63930491E-01
                YY= -0.10161240E+02         YZ=  0.23062692E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30423483E-02 Y=  0.40600908E-11 Z= -0.25529580E-07   Total=     0.00304235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13023255E+01         XY=  0.28746026E-01         XZ=  0.25522396E-01
                YY=  0.12448341E+01         YZ= -0.24118345E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7708307E-02 Y=  0.1255978E-08 Z=  0.4612416E-02  Total=      0.0089829
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086301E+02         XY=  0.38541531E-01         XZ=  0.57198991E-01
                YY= -0.10161240E+02         YZ=  0.23062078E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38751688E-01 Y=  0.36175464E-11 Z= -0.16383721E-06   Total=     0.03875169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51253416E+00         XY= -0.36615039E+00         XZ= -0.32415692E+00
                YY=  0.12448342E+01         YZ= -0.15480054E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3254802E-02 Y=  0.1256989E-08 Z=  0.4612183E-02  Total=      0.0056450
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130836E+02         XY=  0.16274007E-01         XZ=  0.37478605E-01
                YY= -0.10161240E+02         YZ=  0.23060915E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65801960E-01 Y=  0.21178528E-11 Z= -0.15832055E-06   Total=     0.06580196
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13586713E-02         XY= -0.62173842E+00         XZ= -0.55050415E+00
                YY=  0.12448351E+01         YZ= -0.14958935E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2437100E-02 Y=  0.1263708E-08 Z=  0.4612152E-02  Total=      0.0052165
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187755E+02         XY= -0.12185501E-01         XZ=  0.12273531E-01
                YY= -0.10161240E+02         YZ=  0.23060756E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67816242E-01 Y= -0.83547463E-13 Z= -0.16145895E-07   Total=     0.06781624
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.36706905E-01         XY= -0.64077063E+00         XZ= -0.56739726E+00
                YY=  0.12448355E+01         YZ= -0.15255637E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7201756E-02 Y=  0.1274905E-08 Z=  0.4612355E-02  Total=      0.0085521
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235402E+02         XY= -0.36008781E-01         XZ= -0.88261282E-02
                YY= -0.10161240E+02         YZ=  0.23061773E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44027885E-01 Y= -0.22343373E-11 Z=  0.67774183E-07   Total=     0.04402789
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41282659E+00         XY= -0.41600323E+00         XZ= -0.36840788E+00
                YY=  0.12448349E+01         YZ=  0.64035546E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9226301E-02 Y=  0.1275989E-08 Z=  0.4612504E-02  Total=      0.0103150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255648E+02         XY= -0.46131505E-01         XZ= -0.17793373E-01
                YY= -0.10161240E+02         YZ=  0.23062517E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34876064E-02 Y= -0.34201719E-11 Z= -0.20253739E-07   Total=     0.00348761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11789272E+01         XY= -0.32953104E-01         XZ= -0.29246094E-01
                YY=  0.12448340E+01         YZ= -0.19139760E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7740408E-02 Y=  0.1276928E-08 Z=  0.4612384E-02  Total=      0.0090104
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240789E+02         XY= -0.38702041E-01         XZ= -0.11217005E-01
                YY= -0.10161240E+02         YZ=  0.23061917E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38380026E-01 Y= -0.29451333E-11 Z= -0.15616180E-06   Total=     0.03838003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19701123E+01         XY=  0.36263869E+00         XZ=  0.32104596E+00
                YY=  0.12448342E+01         YZ= -0.14755385E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3309395E-02 Y=  0.1276928E-08 Z=  0.4612151E-02  Total=      0.0056766
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196478E+02         XY= -0.16546975E-01         XZ=  0.84014959E-02
                YY= -0.10161240E+02         YZ=  0.23060755E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65645261E-01 Y= -0.69857963E-12 Z= -0.14987566E-06   Total=     0.06564526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24853511E+01         XY=  0.62025782E+00         XZ=  0.54919044E+00
                YY=  0.12448350E+01         YZ= -0.14161241E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2380856E-02 Y=  0.1281479E-08 Z=  0.4612118E-02  Total=      0.0051904
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139576E+02         XY=  0.11904278E-01         XZ=  0.33598899E-01
                YY= -0.10161240E+02         YZ=  0.23060587E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67934098E-01 Y=  0.26789526E-11 Z= -0.81344682E-08   Total=     0.06793410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25286027E+01         XY=  0.64188420E+00         XZ=  0.56838156E+00
                YY=  0.12448355E+01         YZ= -0.76835786E-07         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7165329E-02 Y=  0.1292171E-08 Z=  0.4612321E-02  Total=      0.0085215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091731E+02         XY=  0.35826641E-01         XZ=  0.54788235E-01
                YY= -0.10161240E+02         YZ=  0.23061601E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44375439E-01 Y=  0.59530482E-11 Z=  0.74517980E-07   Total=     0.04437544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20834073E+01         XY=  0.41928713E+00         XZ=  0.37131405E+00
                YY=  0.12448348E+01         YZ=  0.70414387E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9223618E-02 Y=  0.1294266E-08 Z=  0.4612472E-02  Total=      0.0103126
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071149E+02         XY=  0.46118087E-01         XZ=  0.63906252E-01
                YY= -0.10161240E+02         YZ=  0.23062358E-01         ZZ= -0.12217312E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39326105E-02 Y=  0.77579473E-11 Z= -0.15746216E-07   Total=     0.00393261
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13191489E+01         XY=  0.37157784E-01         XZ=  0.32965281E-01
                YY=  0.12448340E+01         YZ= -0.14871434E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7772558E-02 Y=  0.1296577E-08 Z=  0.4612355E-02  Total=      0.0090381
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085659E+02         XY=  0.38862788E-01         XZ=  0.57482788E-01
                YY= -0.10161240E+02         YZ=  0.23061772E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38006898E-01 Y=  0.71897908E-11 Z= -0.15462830E-06   Total=     0.03800690
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52660858E+00         XY= -0.35911314E+00         XZ= -0.31793026E+00
                YY=  0.12448341E+01         YZ= -0.14609648E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3364213E-02 Y=  0.1297661E-08 Z=  0.4612122E-02  Total=      0.0057087
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129742E+02         XY=  0.16821062E-01         XZ=  0.37962221E-01
                YY= -0.10161240E+02         YZ=  0.23060608E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65485992E-01 Y=  0.42713295E-11 Z= -0.15073547E-06   Total=     0.06548599
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73295597E-02         XY= -0.61875295E+00         XZ= -0.54786253E+00
                YY=  0.12448350E+01         YZ= -0.14242074E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2324161E-02 Y=  0.1305102E-08 Z=  0.4612086E-02  Total=      0.0051646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186626E+02         XY= -0.11620806E-01         XZ=  0.12772736E-01
                YY= -0.10161240E+02         YZ=  0.23060426E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68049310E-01 Y=  0.52446107E-13 Z= -0.92256458E-08   Total=     0.06804931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.41111276E-01         XY= -0.64297279E+00         XZ= -0.56934564E+00
                YY=  0.12448354E+01         YZ= -0.87168453E-07         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7128263E-02 Y=  0.1316227E-08 Z=  0.4612287E-02  Total=      0.0084903
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234667E+02         XY= -0.35641316E-01         XZ= -0.85014663E-02
                YY= -0.10161240E+02         YZ=  0.23061435E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44721320E-01 Y= -0.37425873E-11 Z=  0.75580780E-07   Total=     0.04472132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39972251E+00         XY= -0.42255524E+00         XZ= -0.37420494E+00
                YY=  0.12448348E+01         YZ=  0.71410467E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9220221E-02 Y=  0.1317961E-08 Z=  0.4612441E-02  Total=      0.0103096
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255587E+02         XY= -0.46101106E-01         XZ= -0.17766966E-01
                YY= -0.10161240E+02         YZ=  0.23062204E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43775840E-02 Y= -0.54085656E-11 Z= -0.11648411E-07   Total=     0.00437758
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11621090E+01         XY= -0.41362174E-01         XZ= -0.36686195E-01
                YY=  0.12448340E+01         YZ= -0.11010533E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7804060E-02 Y=  0.1318539E-08 Z=  0.4612327E-02  Total=      0.0090651
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241425E+02         XY= -0.39020301E-01         XZ= -0.11499106E-01
                YY= -0.10161240E+02         YZ=  0.23061632E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37632120E-01 Y= -0.40081766E-11 Z= -0.14840808E-06   Total=     0.03763212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19559788E+01         XY=  0.35557200E+00         XZ=  0.31479367E+00
                YY=  0.12448341E+01         YZ= -0.14022850E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3418565E-02 Y=  0.1318250E-08 Z=  0.4612094E-02  Total=      0.0057409
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197570E+02         XY= -0.17092829E-01         XZ=  0.79179988E-02
                YY= -0.10161240E+02         YZ=  0.23060468E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65323997E-01 Y=  0.15687623E-12 Z= -0.14386975E-06   Total=     0.06532400
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24792801E+01         XY=  0.61722232E+00         XZ=  0.54650502E+00
                YY=  0.12448349E+01         YZ= -0.13593689E-05         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2267700E-02 Y=  0.1325474E-08 Z=  0.4612056E-02  Total=      0.0051394
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140708E+02         XY=  0.11338499E-01         XZ=  0.33097763E-01
                YY= -0.10161240E+02         YZ=  0.23060276E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68161733E-01 Y=  0.55882825E-11 Z= -0.26826783E-08   Total=     0.06816173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25329044E+01         XY=  0.64403504E+00         XZ=  0.57028505E+00
                YY=  0.12448354E+01         YZ= -0.25298898E-07         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7091240E-02 Y=  0.1336815E-08 Z=  0.4612257E-02  Total=      0.0084592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092472E+02         XY=  0.35456200E-01         XZ=  0.54459971E-01
                YY= -0.10161240E+02         YZ=  0.23061282E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45065387E-01 Y=  0.10165799E-10 Z=  0.81129033E-07   Total=     0.04506539
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20964454E+01         XY=  0.42580620E+00         XZ=  0.37708254E+00
                YY=  0.12448348E+01         YZ=  0.76664521E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9216787E-02 Y=  0.1337899E-08 Z=  0.4612413E-02  Total=      0.0103065
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071217E+02         XY=  0.46083932E-01         XZ=  0.63875624E-01
                YY= -0.10161240E+02         YZ=  0.23062063E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48223790E-02 Y=  0.12030759E-10 Z= -0.81111337E-08   Total=     0.00482238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13359630E+01         XY=  0.45564878E-01         XZ=  0.40404178E-01
                YY=  0.12448339E+01         YZ= -0.76536723E-07         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7835585E-02 Y=  0.1339561E-08 Z=  0.4612301E-02  Total=      0.0090923
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085029E+02         XY=  0.39177925E-01         XZ=  0.57761301E-01
                YY= -0.10161240E+02         YZ=  0.23061505E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37255849E-01 Y=  0.10405299E-10 Z= -0.14783516E-06   Total=     0.03725585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54080130E+00         XY= -0.35201675E+00         XZ= -0.31165129E+00
                YY=  0.12448340E+01         YZ= -0.13967512E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3473119E-02 Y=  0.1341294E-08 Z=  0.4612068E-02  Total=      0.0057735
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128653E+02         XY=  0.17365592E-01         XZ=  0.38443730E-01
                YY= -0.10161240E+02         YZ=  0.23060338E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65159446E-01 Y=  0.59806799E-11 Z= -0.14588379E-06   Total=     0.06515945
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13500352E-01         XY= -0.61566754E+00         XZ= -0.54513274E+00
                YY=  0.12448349E+01         YZ= -0.13783504E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2210815E-02 Y=  0.1348157E-08 Z=  0.4612027E-02  Total=      0.0051145
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185493E+02         XY= -0.11054078E-01         XZ=  0.13273849E-01
                YY= -0.10161240E+02         YZ=  0.23060132E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68271558E-01 Y=  0.68144123E-12 Z= -0.51905655E-08   Total=     0.06827156
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.45311186E-01         XY= -0.64507274E+00         XZ= -0.57120408E+00
                YY=  0.12448353E+01         YZ= -0.49036231E-07         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7053611E-02 Y=  0.1358560E-08 Z=  0.4612227E-02  Total=      0.0084277
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233921E+02         XY= -0.35268059E-01         XZ= -0.81715946E-02
                YY= -0.10161240E+02         YZ=  0.23061132E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45407864E-01 Y= -0.31167863E-11 Z=  0.80545922E-07   Total=     0.04540786
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38674868E+00         XY= -0.42904214E+00         XZ= -0.37994503E+00
                YY=  0.12448347E+01         YZ=  0.76102468E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9212680E-02 Y=  0.1359138E-08 Z=  0.4612385E-02  Total=      0.0103028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255512E+02         XY= -0.46063401E-01         XZ= -0.17734042E-01
                YY= -0.10161240E+02         YZ=  0.23061923E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52672690E-02 Y= -0.35952332E-11 Z= -0.58232892E-08   Total=     0.00526727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11452963E+01         XY= -0.49768480E-01         XZ= -0.44124477E-01
                YY=  0.12448339E+01         YZ= -0.55049820E-07         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7866517E-02 Y=  0.1360149E-08 Z=  0.4612276E-02  Total=      0.0091189
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242050E+02         XY= -0.39332588E-01         XZ= -0.11775894E-01
                YY= -0.10161240E+02         YZ=  0.23061379E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36877751E-01 Y= -0.29234516E-12 Z= -0.14345486E-06   Total=     0.03687775
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19417233E+01         XY=  0.34844425E+00         XZ=  0.30848694E+00
                YY=  0.12448340E+01         YZ= -0.13554519E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3527279E-02 Y=  0.1360438E-08 Z=  0.4612043E-02  Total=      0.0058063
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198658E+02         XY= -0.17636398E-01         XZ=  0.74365381E-02
                YY= -0.10161239E+02         YZ=  0.23060213E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64991941E-01 Y=  0.56577646E-11 Z= -0.14059343E-06   Total=     0.06499194
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24730051E+01         XY=  0.61408484E+00         XZ=  0.54372927E+00
                YY=  0.12448348E+01         YZ= -0.13283656E-05         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2154070E-02 Y=  0.1365784E-08 Z=  0.4611999E-02  Total=      0.0050902
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141844E+02         XY=  0.10770350E-01         XZ=  0.32594547E-01
                YY= -0.10161239E+02         YZ=  0.23059995E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68378330E-01 Y=  0.11967580E-10 Z=  0.44878217E-09   Total=     0.06837833
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25369974E+01         XY=  0.64608158E+00         XZ=  0.57209654E+00
                YY=  0.12448353E+01         YZ=  0.43427462E-08         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7015907E-02 Y=  0.1375320E-08 Z=  0.4612199E-02  Total=      0.0083961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093226E+02         XY=  0.35079531E-01         XZ=  0.54126232E-01
                YY= -0.10161239E+02         YZ=  0.23060991E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45748249E-01 Y=  0.16141718E-10 Z=  0.86133724E-07   Total=     0.04574825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21093496E+01         XY=  0.43225831E+00         XZ=  0.38279235E+00
                YY=  0.12448347E+01         YZ=  0.81398269E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9208393E-02 Y=  0.1377343E-08 Z=  0.4612359E-02  Total=      0.0102989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071301E+02         XY=  0.46041962E-01         XZ=  0.63838143E-01
                YY= -0.10161240E+02         YZ=  0.23061795E-01         ZZ= -0.12217313E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57117255E-02 Y=  0.16528893E-10 Z= -0.14207817E-08   Total=     0.00571173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13527692E+01         XY=  0.53967984E-01         XZ=  0.47840263E-01
                YY=  0.12448339E+01         YZ= -0.13284548E-07         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7897308E-02 Y=  0.1379510E-08 Z=  0.4612253E-02  Total=      0.0091455
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084412E+02         XY=  0.39486538E-01         XZ=  0.58034135E-01
                YY= -0.10161239E+02         YZ=  0.23061265E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36498364E-01 Y=  0.13026242E-10 Z= -0.14170506E-06   Total=     0.03649836
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55511560E+00         XY= -0.34485957E+00         XZ= -0.30531787E+00
                YY=  0.12448339E+01         YZ= -0.13388083E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3581459E-02 Y=  0.1381171E-08 Z=  0.4612020E-02  Total=      0.0058393
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127570E+02         XY=  0.17907292E-01         XZ=  0.38922854E-01
                YY= -0.10161239E+02         YZ=  0.23060097E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64822014E-01 Y=  0.71326026E-11 Z= -0.14176875E-06   Total=     0.06482201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19876831E-01         XY= -0.61247927E+00         XZ= -0.54231152E+00
                YY=  0.12448348E+01         YZ= -0.13394594E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2097094E-02 Y=  0.1388034E-08 Z=  0.4611973E-02  Total=      0.0050664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184356E+02         XY= -0.10485473E-01         XZ=  0.13776757E-01
                YY= -0.10161239E+02         YZ=  0.23059865E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68482570E-01 Y=  0.13206175E-11 Z= -0.20339896E-08   Total=     0.06848257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.49298760E-01         XY= -0.64706651E+00         XZ= -0.57296846E+00
                YY=  0.12448352E+01         YZ= -0.19205578E-07         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6977794E-02 Y=  0.1397353E-08 Z=  0.4612171E-02  Total=      0.0083643
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233163E+02         XY= -0.34888974E-01         XZ= -0.78364366E-02
                YY= -0.10161239E+02         YZ=  0.23060855E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46087056E-01 Y= -0.20044799E-11 Z=  0.84614735E-07   Total=     0.04608706
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37391376E+00         XY= -0.43545957E+00         XZ= -0.38562384E+00
                YY=  0.12448346E+01         YZ=  0.79947862E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9203634E-02 Y=  0.1397209E-08 Z=  0.4612334E-02  Total=      0.0102947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255421E+02         XY= -0.46018170E-01         XZ= -0.17694339E-01
                YY= -0.10161239E+02         YZ=  0.23061668E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61562572E-02 Y= -0.15159316E-11 Z= -0.85985070E-09   Total=     0.00615626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11284968E+01         XY= -0.58168201E-01         XZ= -0.51557290E-01
                YY=  0.12448338E+01         YZ= -0.81349811E-08         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7927706E-02 Y=  0.1397137E-08 Z=  0.4612231E-02  Total=      0.0091718
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242662E+02         XY= -0.39638533E-01         XZ= -0.12046967E-01
                YY= -0.10161239E+02         YZ=  0.23061151E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36117177E-01 Y=  0.24852241E-11 Z= -0.13942944E-06   Total=     0.03611718
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19273504E+01         XY=  0.34125787E+00         XZ=  0.30212795E+00
                YY=  0.12448339E+01         YZ= -0.13173945E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3635447E-02 Y=  0.1398076E-08 Z=  0.4611997E-02  Total=      0.0058726
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199739E+02         XY= -0.18177237E-01         XZ=  0.69575835E-02
                YY= -0.10161239E+02         YZ=  0.23059983E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64649150E-01 Y=  0.82126114E-11 Z= -0.13841817E-06   Total=     0.06464915
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24665272E+01         XY=  0.61084594E+00         XZ=  0.54086353E+00
                YY=  0.12448347E+01         YZ= -0.13077917E-05         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2040055E-02 Y=  0.1399665E-08 Z=  0.4611948E-02  Total=      0.0050430
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142984E+02         XY=  0.10200272E-01         XZ=  0.32089708E-01
                YY= -0.10161239E+02         YZ=  0.23059740E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68583755E-01 Y=  0.13163361E-10 Z=  0.22987529E-08   Total=     0.06858376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25408794E+01         XY=  0.64802257E+00         XZ=  0.57381458E+00
                YY=  0.12448352E+01         YZ=  0.21831563E-07         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6939401E-02 Y=  0.1410573E-08 Z=  0.4612145E-02  Total=      0.0083323
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093991E+02         XY=  0.34697003E-01         XZ=  0.53787399E-01
                YY= -0.10161239E+02         YZ=  0.23060725E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46423762E-01 Y=  0.15178237E-10 Z=  0.89675067E-07   Total=     0.04642376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21221148E+01         XY=  0.43864098E+00         XZ=  0.38844088E+00
                YY=  0.12448346E+01         YZ=  0.84743472E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9198487E-02 Y=  0.1411874E-08 Z=  0.4612310E-02  Total=      0.0102901
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071400E+02         XY=  0.45992431E-01         XZ=  0.63794074E-01
                YY= -0.10161239E+02         YZ=  0.23061550E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66003498E-02 Y=  0.13339222E-10 Z=  0.35094819E-08   Total=     0.00660035
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13695617E+01         XY=  0.62364268E-01         XZ=  0.55270572E-01
                YY=  0.12448338E+01         YZ=  0.33272528E-07         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7957755E-02 Y=  0.1413896E-08 Z=  0.4612210E-02  Total=      0.0091977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083807E+02         XY=  0.39788772E-01         XZ=  0.58301440E-01
                YY= -0.10161239E+02         YZ=  0.23061047E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35734690E-01 Y=  0.83260231E-11 Z= -0.13775505E-06   Total=     0.03573469
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56954687E+00         XY= -0.33764388E+00         XZ= -0.29893247E+00
                YY=  0.12448338E+01         YZ= -0.13015256E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3689246E-02 Y=  0.1415341E-08 Z=  0.4611976E-02  Total=      0.0059060
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126492E+02         XY=  0.18446230E-01         XZ=  0.39399659E-01
                YY= -0.10161239E+02         YZ=  0.23059877E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64473826E-01 Y=  0.20936365E-11 Z= -0.14013803E-06   Total=     0.06447383
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26456559E-01         XY= -0.60918937E+00         XZ= -0.53940031E+00
                YY=  0.12448347E+01         YZ= -0.13240934E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1982989E-02 Y=  0.1415413E-08 Z=  0.4611924E-02  Total=      0.0050202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183215E+02         XY= -0.99149482E-02         XZ=  0.14281484E-01
                YY= -0.10161239E+02         YZ=  0.23059620E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68682346E-01 Y= -0.29760913E-11 Z= -0.12606375E-08   Total=     0.06868235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.53074050E-01         XY= -0.64895412E+00         XZ= -0.57463907E+00
                YY=  0.12448351E+01         YZ= -0.11934407E-07         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6900801E-02 Y=  0.1424660E-08 Z=  0.4612120E-02  Total=      0.0083002
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232393E+02         XY= -0.34504008E-01         XZ= -0.74959661E-02
                YY= -0.10161239E+02         YZ=  0.23060598E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46758810E-01 Y= -0.50737259E-11 Z=  0.86816807E-07   Total=     0.04675881
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36121938E+00         XY= -0.44180672E+00         XZ= -0.39124081E+00
                YY=  0.12448345E+01         YZ=  0.82025930E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9193064E-02 Y=  0.1424588E-08 Z=  0.4612287E-02  Total=      0.0102852
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255316E+02         XY= -0.45965322E-01         XZ= -0.17647808E-01
                YY= -0.10161239E+02         YZ=  0.23061432E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70444357E-02 Y= -0.36853368E-11 Z=  0.28397399E-08   Total=     0.00704444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11117125E+01         XY= -0.66560271E-01         XZ= -0.58983753E-01
                YY=  0.12448337E+01         YZ=  0.26802414E-07         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7987603E-02 Y=  0.1424444E-08 Z=  0.4612189E-02  Total=      0.0092236
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243261E+02         XY= -0.39938015E-01         XZ= -0.12312250E-01
                YY= -0.10161239E+02         YZ=  0.23060942E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35350475E-01 Y=  0.25712827E-12 Z= -0.13631596E-06   Total=     0.03535048
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19128618E+01         XY=  0.33401358E+00         XZ=  0.29571737E+00
                YY=  0.12448338E+01         YZ= -0.12879958E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3743043E-02 Y=  0.1424588E-08 Z=  0.4611955E-02  Total=      0.0059397
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200815E+02         XY= -0.18715218E-01         XZ=  0.64812159E-02
                YY= -0.10161239E+02         YZ=  0.23059772E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64295624E-01 Y=  0.48351320E-11 Z= -0.13707564E-06   Total=     0.06429562
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24598465E+01         XY=  0.60750560E+00         XZ=  0.53790789E+00
                YY=  0.12448346E+01         YZ= -0.12951357E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1925674E-02 Y=  0.1425094E-08 Z=  0.4611901E-02  Total=      0.0049978
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144128E+02         XY=  0.96283675E-02         XZ=  0.31583309E-01
                YY= -0.10161239E+02         YZ=  0.23059503E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68777929E-01 Y=  0.79906266E-11 Z=  0.33677010E-08   Total=     0.06877793
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25445487E+01         XY=  0.64985725E+00         XZ=  0.57543868E+00
                YY=  0.12448350E+01         YZ=  0.31887636E-07         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6861734E-02 Y=  0.1435207E-08 Z=  0.4612096E-02  Total=      0.0082677
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094768E+02         XY=  0.34308669E-01         XZ=  0.53443492E-01
                YY= -0.10161239E+02         YZ=  0.23060476E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47091796E-01 Y=  0.83827080E-11 Z=  0.92639901E-07   Total=     0.04709180
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21347388E+01         XY=  0.44495299E+00         XZ=  0.39402722E+00
                YY=  0.12448345E+01         YZ=  0.87539088E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9187068E-02 Y=  0.1437591E-08 Z=  0.4612265E-02  Total=      0.0102798
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071514E+02         XY=  0.45935338E-01         XZ=  0.63743394E-01
                YY= -0.10161239E+02         YZ=  0.23061322E-01         ZZ= -0.12217314E+02
  Expectation value of momentum operator [a. u.]
    X=  0.74881248E-02 Y=  0.58898707E-11 Z=  0.81494358E-08   Total=     0.00748812
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13863381E+01         XY=  0.70752526E-01         XZ=  0.62694205E-01
                YY=  0.12448337E+01         YZ=  0.77050866E-07         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8016916E-02 Y=  0.1439614E-08 Z=  0.4612170E-02  Total=      0.0092489
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083216E+02         XY=  0.40084580E-01         XZ=  0.58563157E-01
                YY= -0.10161239E+02         YZ=  0.23060847E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34964906E-01 Y=  0.15690909E-11 Z= -0.13390178E-06   Total=     0.03496491
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58409358E+00         XY= -0.33037048E+00         XZ= -0.29249564E+00
                YY=  0.12448337E+01         YZ= -0.12651747E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3796469E-02 Y=  0.1440409E-08 Z=  0.4611936E-02  Total=      0.0059735
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125420E+02         XY=  0.18982343E-01         XZ=  0.39874076E-01
                YY= -0.10161239E+02         YZ=  0.23059676E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64114895E-01 Y= -0.28728944E-11 Z= -0.13853853E-06   Total=     0.06411490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33239318E-01         XY= -0.60579797E+00         XZ= -0.53639911E+00
                YY=  0.12448345E+01         YZ= -0.13090229E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1868510E-02 Y=  0.1440698E-08 Z=  0.4611879E-02  Total=      0.0049760
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182070E+02         XY= -0.93425543E-02         XZ=  0.14787981E-01
                YY= -0.10161239E+02         YZ=  0.23059393E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68870839E-01 Y= -0.58332134E-11 Z= -0.46939643E-09   Total=     0.06887084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.56636081E-01         XY= -0.65073512E+00         XZ= -0.57621543E+00
                YY=  0.12448350E+01         YZ= -0.44836267E-08         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6822634E-02 Y=  0.1450595E-08 Z=  0.4612072E-02  Total=      0.0082353
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231611E+02         XY= -0.34113172E-01         XZ= -0.71501950E-02
                YY= -0.10161239E+02         YZ=  0.23060358E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47423042E-01 Y= -0.64547626E-11 Z=  0.89126374E-07   Total=     0.04742304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34866716E+00         XY= -0.44808281E+00         XZ= -0.39679521E+00
                YY=  0.12448344E+01         YZ=  0.84206810E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9180964E-02 Y=  0.1451100E-08 Z=  0.4612243E-02  Total=      0.0102744
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255195E+02         XY= -0.45904823E-01         XZ= -0.17594417E-01
                YY= -0.10161239E+02         YZ=  0.23061213E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.79317286E-02 Y= -0.48928140E-11 Z=  0.67003199E-08   Total=     0.00793173
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10949451E+01         XY= -0.74943974E-01         XZ= -0.66403218E-01
                YY=  0.12448336E+01         YZ=  0.63267301E-07         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8046193E-02 Y=  0.1450667E-08 Z=  0.4612150E-02  Total=      0.0092743
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243847E+02         XY= -0.40230965E-01         XZ= -0.12571683E-01
                YY= -0.10161239E+02         YZ=  0.23060750E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34577678E-01 Y= -0.21312803E-11 Z= -0.13308446E-06   Total=     0.03457768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18982579E+01         XY=  0.32671171E+00         XZ=  0.28925550E+00
                YY=  0.12448337E+01         YZ= -0.12574849E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3850052E-02 Y=  0.1450089E-08 Z=  0.4611916E-02  Total=      0.0060077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201885E+02         XY= -0.19250260E-01         XZ=  0.60075054E-02
                YY= -0.10161239E+02         YZ=  0.23059579E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63931342E-01 Y=  0.52176107E-12 Z= -0.13564066E-06   Total=     0.06393134
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24529625E+01         XY=  0.60406364E+00         XZ=  0.53486216E+00
                YY=  0.12448345E+01         YZ= -0.12816156E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1810941E-02 Y=  0.1449583E-08 Z=  0.4611857E-02  Total=      0.0049547
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145276E+02         XY=  0.90547019E-02         XZ=  0.31075405E-01
                YY= -0.10161239E+02         YZ=  0.23059284E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68960784E-01 Y=  0.20034272E-11 Z=  0.47039499E-08   Total=     0.06896078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25480041E+01         XY=  0.65158498E+00         XZ=  0.57696822E+00
                YY=  0.12448350E+01         YZ=  0.44460875E-07         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6782912E-02 Y=  0.1458180E-08 Z=  0.4612049E-02  Total=      0.0082024
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095556E+02         XY=  0.33914560E-01         XZ=  0.53094533E-01
                YY= -0.10161239E+02         YZ=  0.23060245E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47752267E-01 Y=  0.18769302E-11 Z=  0.96241422E-07   Total=     0.04775227
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21472198E+01         XY=  0.45119353E+00         XZ=  0.39955063E+00
                YY=  0.12448344E+01         YZ=  0.90936345E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9174135E-02 Y=  0.1457963E-08 Z=  0.4612223E-02  Total=      0.0102683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071644E+02         XY=  0.45870673E-01         XZ=  0.63686087E-01
                YY= -0.10161239E+02         YZ=  0.23061112E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83749793E-02 Y=  0.38721231E-12 Z=  0.13742012E-07   Total=     0.00837498
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14030972E+01         XY=  0.79132086E-01         XZ=  0.70110576E-01
                YY=  0.12448336E+01         YZ=  0.12984442E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8074785E-02 Y=  0.1458541E-08 Z=  0.4612133E-02  Total=      0.0092991
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082637E+02         XY=  0.40373924E-01         XZ=  0.58819248E-01
                YY= -0.10161239E+02         YZ=  0.23060665E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34189041E-01 Y= -0.17785968E-11 Z= -0.12905718E-06   Total=     0.03418904
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59875525E+00         XY= -0.32303962E+00         XZ= -0.28600755E+00
                YY=  0.12448336E+01         YZ= -0.12194307E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3903118E-02 Y=  0.1458975E-08 Z=  0.4611899E-02  Total=      0.0060418
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124354E+02         XY=  0.19515587E-01         XZ=  0.40346061E-01
                YY= -0.10161239E+02         YZ=  0.23059494E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63745192E-01 Y= -0.38643737E-11 Z= -0.13611625E-06   Total=     0.06374519
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40225680E-01         XY= -0.60230477E+00         XZ= -0.53330762E+00
                YY=  0.12448345E+01         YZ= -0.12861469E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1753663E-02 Y=  0.1458830E-08 Z=  0.4611837E-02  Total=      0.0049340
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180922E+02         XY= -0.87683182E-02         XZ=  0.15296220E-01
                YY= -0.10161239E+02         YZ=  0.23059185E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69047970E-01 Y= -0.53542154E-11 Z=  0.10572415E-08   Total=     0.06904797
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.59983366E-01         XY= -0.65240876E+00         XZ= -0.57769681E+00
                YY=  0.12448349E+01         YZ=  0.99418158E-08         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6743291E-02 Y=  0.1468149E-08 Z=  0.4612028E-02  Total=      0.0081696
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230818E+02         XY= -0.33716459E-01         XZ= -0.67991193E-02
                YY= -0.10161239E+02         YZ=  0.23060137E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48079653E-01 Y= -0.60870379E-11 Z=  0.92333114E-07   Total=     0.04807965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33625900E+00         XY= -0.45428688E+00         XZ= -0.40228615E+00
                YY=  0.12448344E+01         YZ=  0.87236719E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9167325E-02 Y=  0.1469016E-08 Z=  0.4612203E-02  Total=      0.0102622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255058E+02         XY= -0.45836626E-01         XZ= -0.17534128E-01
                YY= -0.10161239E+02         YZ=  0.23061012E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88180472E-02 Y= -0.61698973E-11 Z=  0.11728010E-07   Total=     0.00881805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10781960E+01         XY= -0.83318472E-01         XZ= -0.73814997E-01
                YY=  0.12448336E+01         YZ=  0.11075814E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8103461E-02 Y=  0.1468944E-08 Z=  0.4612116E-02  Total=      0.0093240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244420E+02         XY= -0.40517306E-01         XZ= -0.12825205E-01
                YY= -0.10161239E+02         YZ=  0.23060578E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33798827E-01 Y= -0.57918693E-11 Z= -0.12857899E-06   Total=     0.03379883
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18835397E+01         XY=  0.31935264E+00         XZ=  0.28274247E+00
                YY=  0.12448336E+01         YZ= -0.12149482E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3956456E-02 Y=  0.1467355E-08 Z=  0.4611882E-02  Total=      0.0060764
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202950E+02         XY= -0.19782283E-01         XZ=  0.55365073E-02
                YY= -0.10161239E+02         YZ=  0.23059407E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63556269E-01 Y= -0.50794675E-11 Z= -0.13308683E-06   Total=     0.06355627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24458746E+01         XY=  0.60051971E+00         XZ=  0.53172575E+00
                YY=  0.12448344E+01         YZ= -0.12575354E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1695866E-02 Y=  0.1464754E-08 Z=  0.4611818E-02  Total=      0.0049137
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146426E+02         XY=  0.84793272E-02         XZ=  0.30566011E-01
                YY= -0.10161239E+02         YZ=  0.23059087E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69132200E-01 Y= -0.40831599E-11 Z=  0.68749701E-08   Total=     0.06913220
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25512434E+01         XY=  0.65320463E+00         XZ=  0.57840181E+00
                YY=  0.12448349E+01         YZ=  0.64920310E-07         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6702934E-02 Y=  0.1472773E-08 Z=  0.4612007E-02  Total=      0.0081363
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096356E+02         XY=  0.33514667E-01         XZ=  0.52740468E-01
                YY= -0.10161239E+02         YZ=  0.23060035E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48404979E-01 Y= -0.28848182E-11 Z=  0.10042629E-06   Total=     0.04840498
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21595543E+01         XY=  0.45736077E+00         XZ=  0.40500905E+00
                YY=  0.12448344E+01         YZ=  0.94886227E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9159669E-02 Y=  0.1472917E-08 Z=  0.4612185E-02  Total=      0.0102553
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071789E+02         XY=  0.45798342E-01         XZ=  0.63622007E-01
                YY= -0.10161239E+02         YZ=  0.23060922E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.92606845E-02 Y= -0.17236646E-11 Z=  0.19729754E-07   Total=     0.00926068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14198345E+01         XY=  0.87500787E-01         XZ=  0.77517357E-01
                YY=  0.12448335E+01         YZ=  0.18640034E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8131325E-02 Y=  0.1472484E-08 Z=  0.4612101E-02  Total=      0.0093483
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082072E+02         XY=  0.40656625E-01         XZ=  0.59069474E-01
                YY= -0.10161239E+02         YZ=  0.23060504E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33407304E-01 Y= -0.10191192E-11 Z= -0.12396823E-06   Total=     0.03340730
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61352789E+00         XY= -0.31565328E+00         XZ= -0.27947027E+00
                YY=  0.12448336E+01         YZ= -0.11713429E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4009143E-02 Y=  0.1472556E-08 Z=  0.4611867E-02  Total=      0.0061109
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123294E+02         XY=  0.20045715E-01         XZ=  0.40815310E-01
                YY= -0.10161239E+02         YZ=  0.23059333E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63364844E-01 Y= -0.12246507E-11 Z= -0.13350615E-06   Total=     0.06336484
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47413188E-01         XY= -0.59871101E+00         XZ= -0.53012704E+00
                YY=  0.12448344E+01         YZ= -0.12614650E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1638501E-02 Y=  0.1472989E-08 Z=  0.4611800E-02  Total=      0.0048942
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179770E+02         XY= -0.81925046E-02         XZ=  0.15805880E-01
                YY= -0.10161239E+02         YZ=  0.23058999E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69213732E-01 Y= -0.25622487E-11 Z=  0.29016676E-08   Total=     0.06921373
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.63115825E-01         XY= -0.65397499E+00         XZ= -0.57908311E+00
                YY=  0.12448349E+01         YZ=  0.27390633E-07         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6662818E-02 Y=  0.1481658E-08 Z=  0.4611988E-02  Total=      0.0081033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230013E+02         XY= -0.33314090E-01         XZ= -0.64430127E-02
                YY= -0.10161239E+02         YZ=  0.23059938E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48728474E-01 Y= -0.47824052E-11 Z=  0.96115572E-07   Total=     0.04872847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32399804E+00         XY= -0.46041735E+00         XZ= -0.40771197E+00
                YY=  0.12448343E+01         YZ=  0.90811551E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9152169E-02 Y=  0.1481514E-08 Z=  0.4612167E-02  Total=      0.0102486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254907E+02         XY= -0.45760845E-01         XZ= -0.17467104E-01
                YY= -0.10161239E+02         YZ=  0.23060833E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97030784E-02 Y= -0.71145302E-11 Z=  0.17474378E-07   Total=     0.00970308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10614713E+01         XY= -0.91680804E-01         XZ= -0.81216016E-01
                YY=  0.12448335E+01         YZ=  0.16504418E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8159399E-02 Y=  0.1481947E-08 Z=  0.4612086E-02  Total=      0.0093727
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244979E+02         XY= -0.40796999E-01         XZ= -0.13072820E-01
                YY= -0.10161239E+02         YZ=  0.23060427E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33014325E-01 Y= -0.84959917E-11 Z= -0.12352315E-06   Total=     0.03301433
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18687148E+01         XY=  0.31194017E+00         XZ=  0.27618226E+00
                YY=  0.12448335E+01         YZ= -0.11672010E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4062215E-02 Y=  0.1481514E-08 Z=  0.4611852E-02  Total=      0.0061458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204007E+02         XY= -0.20311079E-01         XZ=  0.50683931E-02
                YY= -0.10161239E+02         YZ=  0.23059257E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63170809E-01 Y= -0.80236723E-11 Z= -0.13037433E-06   Total=     0.06317081
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24385905E+01         XY=  0.59687765E+00         XZ=  0.52850265E+00
                YY=  0.12448343E+01         YZ= -0.12319310E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1580520E-02 Y=  0.1480502E-08 Z=  0.4611783E-02  Total=      0.0048751
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147580E+02         XY=  0.79025959E-02         XZ=  0.30055452E-01
                YY= -0.10161239E+02         YZ=  0.23058911E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69292488E-01 Y= -0.54354424E-11 Z=  0.88968250E-08   Total=     0.06929249
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25542724E+01         XY=  0.65471913E+00         XZ=  0.57974262E+00
                YY=  0.12448348E+01         YZ=  0.84012668E-07         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6621886E-02 Y=  0.1489171E-08 Z=  0.4611969E-02  Total=      0.0080697
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097166E+02         XY=  0.33109427E-01         XZ=  0.52381718E-01
                YY= -0.10161239E+02         YZ=  0.23059846E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49050080E-01 Y= -0.13743312E-11 Z=  0.10445167E-06   Total=     0.04905008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21717449E+01         XY=  0.46345609E+00         XZ=  0.41040412E+00
                YY=  0.12448343E+01         YZ=  0.98690951E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9143759E-02 Y=  0.1489605E-08 Z=  0.4612151E-02  Total=      0.0102411
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071948E+02         XY=  0.45718794E-01         XZ=  0.63551596E-01
                YY= -0.10161239E+02         YZ=  0.23060753E-01         ZZ= -0.12217315E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10145188E-01 Y=  0.27412235E-11 Z=  0.25769785E-07   Total=     0.01014519
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14365492E+01         XY=  0.95858135E-01         XZ=  0.84914321E-01
                YY=  0.12448335E+01         YZ=  0.24350816E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8186612E-02 Y=  0.1490833E-08 Z=  0.4612073E-02  Total=      0.0093964
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081519E+02         XY=  0.40933059E-01         XZ=  0.59314217E-01
                YY= -0.10161239E+02         YZ=  0.23060364E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32619921E-01 Y=  0.52420932E-11 Z= -0.11861965E-06   Total=     0.03261992
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62840723E+00         XY= -0.30821359E+00         XZ= -0.27288575E+00
                YY=  0.12448335E+01         YZ= -0.11207533E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4114596E-02 Y=  0.1492061E-08 Z=  0.4611839E-02  Total=      0.0061805
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122239E+02         XY=  0.20572979E-01         XZ=  0.41282082E-01
                YY= -0.10161239E+02         YZ=  0.23059194E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62974187E-01 Y=  0.49352523E-11 Z= -0.13053904E-06   Total=     0.06297419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54795524E-01         XY= -0.59501983E+00         XZ= -0.52686050E+00
                YY=  0.12448343E+01         YZ= -0.12333779E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1523003E-02 Y=  0.1492783E-08 Z=  0.4611767E-02  Total=      0.0048567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178615E+02         XY= -0.76150144E-02         XZ=  0.16317064E-01
                YY= -0.10161239E+02         YZ=  0.23058834E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69368488E-01 Y=  0.17095196E-11 Z=  0.51690760E-08   Total=     0.06936849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.66040286E-01         XY= -0.65543723E+00         XZ= -0.58037792E+00
                YY=  0.12448348E+01         YZ=  0.48850746E-07         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6581222E-02 Y=  0.1501886E-08 Z=  0.4611952E-02  Total=      0.0080363
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229197E+02         XY= -0.32906111E-01         XZ= -0.60819323E-02
                YY= -0.10161239E+02         YZ=  0.23059759E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49369828E-01 Y= -0.32827859E-11 Z=  0.10042987E-06   Total=     0.04936983
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31187821E+00         XY= -0.46647727E+00         XZ= -0.41307613E+00
                YY=  0.12448343E+01         YZ=  0.94889291E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9135529E-02 Y=  0.1502536E-08 Z=  0.4612135E-02  Total=      0.0102338
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254741E+02         XY= -0.45677646E-01         XZ= -0.17393543E-01
                YY= -0.10161239E+02         YZ=  0.23060674E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10587072E-01 Y= -0.80040595E-11 Z=  0.23822618E-07   Total=     0.01058707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10447662E+01         XY= -0.10003333E+00         XZ= -0.88609230E-01
                YY=  0.12448335E+01         YZ=  0.22501977E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8214060E-02 Y=  0.1501524E-08 Z=  0.4612060E-02  Total=      0.0094203
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245526E+02         XY= -0.41070300E-01         XZ= -0.13314843E-01
                YY= -0.10161239E+02         YZ=  0.23060298E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32223988E-01 Y= -0.10353446E-10 Z= -0.11797304E-06   Total=     0.03222399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18537795E+01         XY=  0.30447256E+00         XZ=  0.26957244E+00
                YY=  0.12448335E+01         YZ= -0.11147744E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4167393E-02 Y=  0.1499502E-08 Z=  0.4611826E-02  Total=      0.0062158
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205059E+02         XY= -0.20836968E-01         XZ=  0.46027552E-02
                YY= -0.10161239E+02         YZ=  0.23059129E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62774814E-01 Y= -0.90999401E-11 Z= -0.12744466E-06   Total=     0.06277481
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24311072E+01         XY=  0.59313603E+00         XZ=  0.52519086E+00
                YY=  0.12448343E+01         YZ= -0.12042573E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1464826E-02 Y=  0.1497696E-08 Z=  0.4611752E-02  Total=      0.0048388
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148737E+02         XY=  0.73241302E-02         XZ=  0.29543244E-01
                YY= -0.10161239E+02         YZ=  0.23058758E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69441508E-01 Y= -0.45085267E-11 Z=  0.10861909E-07   Total=     0.06944151
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25570885E+01         XY=  0.65612716E+00         XZ=  0.58098893E+00
                YY=  0.12448348E+01         YZ=  0.10258926E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6539683E-02 Y=  0.1505353E-08 Z=  0.4611936E-02  Total=      0.0080023
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097988E+02         XY=  0.32698412E-01         XZ=  0.52017737E-01
                YY= -0.10161239E+02         YZ=  0.23059678E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49687439E-01 Y=  0.16510707E-11 Z=  0.10828807E-06   Total=     0.04968744
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21837893E+01         XY=  0.46947826E+00         XZ=  0.41573451E+00
                YY=  0.12448343E+01         YZ=  0.10231849E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9126312E-02 Y=  0.1507087E-08 Z=  0.4612121E-02  Total=      0.0102255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072122E+02         XY=  0.45631557E-01         XZ=  0.63474269E-01
                YY= -0.10161239E+02         YZ=  0.23060604E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11028418E-01 Y=  0.67673672E-11 Z=  0.31588477E-07   Total=     0.01102842
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14532398E+01         XY=  0.10420345E+00         XZ=  0.92300952E-01
                YY=  0.12448334E+01         YZ=  0.29852170E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8240551E-02 Y=  0.1509471E-08 Z=  0.4612049E-02  Total=      0.0094434
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080980E+02         XY=  0.41202754E-01         XZ=  0.59552902E-01
                YY= -0.10161239E+02         YZ=  0.23060244E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31826837E-01 Y=  0.84744649E-11 Z= -0.11355052E-06   Total=     0.03182684
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64339431E+00         XY= -0.30072003E+00         XZ= -0.26625308E+00
                YY=  0.12448334E+01         YZ= -0.10728289E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4219394E-02 Y=  0.1511638E-08 Z=  0.4611816E-02  Total=      0.0062508
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121191E+02         XY=  0.21096967E-01         XZ=  0.41745885E-01
                YY= -0.10161239E+02         YZ=  0.23059076E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62572970E-01 Y=  0.57063611E-11 Z= -0.12795633E-06   Total=     0.06257297
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62377415E-01         XY= -0.59122888E+00         XZ= -0.52350514E+00
                YY=  0.12448342E+01         YZ= -0.12089675E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1407222E-02 Y=  0.1513878E-08 Z=  0.4611739E-02  Total=      0.0048217
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177457E+02         XY= -0.70361131E-02         XZ=  0.16829448E-01
                YY= -0.10161239E+02         YZ=  0.23058691E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69511765E-01 Y= -0.75354015E-12 Z=  0.69896609E-08   Total=     0.06951177
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.68747814E-01         XY= -0.65679100E+00         XZ= -0.58157627E+00
                YY=  0.12448347E+01         YZ=  0.66033167E-07         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6498512E-02 Y=  0.1523413E-08 Z=  0.4611921E-02  Total=      0.0079687
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228370E+02         XY= -0.32492560E-01         XZ= -0.57159514E-02
                YY= -0.10161239E+02         YZ=  0.23059601E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50003055E-01 Y= -0.85037630E-11 Z=  0.10429618E-06   Total=     0.05000306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29991193E+00         XY= -0.47246040E+00         XZ= -0.41837197E+00
                YY=  0.12448342E+01         YZ=  0.98538173E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9117356E-02 Y=  0.1523413E-08 Z=  0.4612107E-02  Total=      0.0102175
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254559E+02         XY= -0.45586784E-01         XZ= -0.17313220E-01
                YY= -0.10161239E+02         YZ=  0.23060534E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11469287E-01 Y= -0.14477680E-10 Z=  0.29642734E-07   Total=     0.01146929
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10280947E+01         XY= -0.10836905E+00         XZ= -0.95987308E-01
                YY=  0.12448334E+01         YZ=  0.27995912E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8267335E-02 Y=  0.1522547E-08 Z=  0.4612038E-02  Total=      0.0094668
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246059E+02         XY= -0.41336676E-01         XZ= -0.13550749E-01
                YY= -0.10161239E+02         YZ=  0.23060187E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31428488E-01 Y= -0.16235484E-10 Z= -0.11323792E-06   Total=     0.03142849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18387467E+01         XY=  0.29695618E+00         XZ=  0.26291965E+00
                YY=  0.12448334E+01         YZ= -0.10700818E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4271838E-02 Y=  0.1521824E-08 Z=  0.4611804E-02  Total=      0.0062863
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206104E+02         XY= -0.21359194E-01         XZ=  0.41403545E-02
                YY= -0.10161239E+02         YZ=  0.23059020E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62368743E-01 Y= -0.13045043E-10 Z= -0.12570936E-06   Total=     0.06236874
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24234336E+01         XY=  0.58929922E+00         XZ=  0.52179496E+00
                YY=  0.12448342E+01         YZ= -0.11878927E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1348962E-02 Y=  0.1520957E-08 Z=  0.4611725E-02  Total=      0.0048050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149895E+02         XY=  0.67448077E-02         XZ=  0.29030275E-01
                YY= -0.10161239E+02         YZ=  0.23058623E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69579405E-01 Y= -0.62647182E-11 Z=  0.11483525E-07   Total=     0.06957940
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25596944E+01         XY=  0.65743010E+00         XZ=  0.58214230E+00
                YY=  0.12448347E+01         YZ=  0.10844917E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6456497E-02 Y=  0.1529048E-08 Z=  0.4611906E-02  Total=      0.0079345
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098820E+02         XY=  0.32282483E-01         XZ=  0.51649406E-01
                YY= -0.10161239E+02         YZ=  0.23059527E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50316865E-01 Y=  0.11673393E-11 Z=  0.11108890E-06   Total=     0.05031686
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21956837E+01         XY=  0.47542547E+00         XZ=  0.42099856E+00
                YY=  0.12448342E+01         YZ=  0.10496459E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9107472E-02 Y=  0.1530349E-08 Z=  0.4612095E-02  Total=      0.0102087
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072311E+02         XY=  0.45537356E-01         XZ=  0.63390774E-01
                YY= -0.10161239E+02         YZ=  0.23060471E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11909901E-01 Y=  0.59491285E-11 Z=  0.37028729E-07   Total=     0.01190990
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14698973E+01         XY=  0.11253225E+00         XZ=  0.99672835E-01
                YY=  0.12448334E+01         YZ=  0.34991857E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8293241E-02 Y=  0.1531432E-08 Z=  0.4612029E-02  Total=      0.0094894
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080453E+02         XY=  0.41466205E-01         XZ=  0.59786049E-01
                YY= -0.10161239E+02         YZ=  0.23060141E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31028691E-01 Y=  0.58310285E-11 Z= -0.10820090E-06   Total=     0.03102869
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65847705E+00         XY= -0.29317864E+00         XZ= -0.25957840E+00
                YY=  0.12448334E+01         YZ= -0.10223037E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4323583E-02 Y=  0.1531938E-08 Z=  0.4611795E-02  Total=      0.0063216
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120149E+02         XY=  0.21617912E-01         XZ=  0.42206966E-01
                YY= -0.10161239E+02         YZ=  0.23058975E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62161863E-01 Y=  0.61769599E-12 Z= -0.12471728E-06   Total=     0.06216186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70146204E-01         XY= -0.58734448E+00         XZ= -0.52006761E+00
                YY=  0.12448342E+01         YZ= -0.11784046E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1291163E-02 Y=  0.1532588E-08 Z=  0.4611713E-02  Total=      0.0047891
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176297E+02         XY= -0.64558186E-02         XZ=  0.17343012E-01
                YY= -0.10161239E+02         YZ=  0.23058565E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69644151E-01 Y= -0.76929204E-11 Z=  0.95094833E-08   Total=     0.06964415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.71249534E-01         XY= -0.65804187E+00         XZ= -0.58268425E+00
                YY=  0.12448347E+01         YZ=  0.89784931E-07         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6414731E-02 Y=  0.1541040E-08 Z=  0.4611892E-02  Total=      0.0079005
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227533E+02         XY= -0.32073655E-01         XZ= -0.53453189E-02
                YY= -0.10161239E+02         YZ=  0.23059460E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50628605E-01 Y= -0.15716823E-10 Z=  0.10867319E-06   Total=     0.05062860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28809076E+00         XY= -0.47837099E+00         XZ= -0.42360440E+00
                YY=  0.12448342E+01         YZ=  0.10266792E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9097724E-02 Y=  0.1540462E-08 Z=  0.4612083E-02  Total=      0.0102000
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254363E+02         XY= -0.45488620E-01         XZ= -0.17226554E-01
                YY= -0.10161239E+02         YZ=  0.23060412E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12350027E-01 Y= -0.20109911E-10 Z=  0.35657893E-07   Total=     0.01235003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10114511E+01         XY= -0.11669084E+00         XZ= -0.10335378E+00
                YY=  0.12448334E+01         YZ=  0.33674805E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8319315E-02 Y=  0.1538439E-08 Z=  0.4612019E-02  Total=      0.0095122
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246578E+02         XY= -0.41596579E-01         XZ= -0.13781074E-01
                YY= -0.10161239E+02         YZ=  0.23060094E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30627638E-01 Y= -0.19003284E-10 Z= -0.10865658E-06   Total=     0.03062764
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18236128E+01         XY=  0.28938924E+00         XZ=  0.25622161E+00
                YY=  0.12448333E+01         YZ= -0.10268166E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4375652E-02 Y=  0.1536706E-08 Z=  0.4611786E-02  Total=      0.0063573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207142E+02         XY= -0.21878259E-01         XZ=  0.36805883E-02
                YY= -0.10161239E+02         YZ=  0.23058929E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61952485E-01 Y= -0.12824554E-10 Z= -0.12436608E-06   Total=     0.06195248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24155675E+01         XY=  0.58536615E+00         XZ=  0.51831373E+00
                YY=  0.12448341E+01         YZ= -0.11751979E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1232819E-02 Y=  0.1537284E-08 Z=  0.4611702E-02  Total=      0.0047736
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151057E+02         XY=  0.61640952E-02         XZ=  0.28515917E-01
                YY= -0.10161239E+02         YZ=  0.23058506E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69706133E-01 Y= -0.41384450E-11 Z=  0.11721289E-07   Total=     0.06970613
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25620892E+01         XY=  0.65862751E+00         XZ=  0.58320259E+00
                YY=  0.12448346E+01         YZ=  0.11071411E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6372222E-02 Y=  0.1546386E-08 Z=  0.4611879E-02  Total=      0.0078660
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099663E+02         XY=  0.31861109E-01         XZ=  0.51276118E-01
                YY= -0.10161239E+02         YZ=  0.23059394E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50938402E-01 Y=  0.34343024E-11 Z=  0.11371792E-06   Total=     0.05093840
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22074290E+01         XY=  0.48129814E+00         XZ=  0.42619735E+00
                YY=  0.12448342E+01         YZ=  0.10745060E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9087141E-02 Y=  0.1547397E-08 Z=  0.4612072E-02  Total=      0.0101906
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072514E+02         XY=  0.45435702E-01         XZ=  0.63300583E-01
                YY= -0.10161239E+02         YZ=  0.23060356E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12789819E-01 Y=  0.67600041E-11 Z=  0.42445112E-07   Total=     0.01278982
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14865254E+01         XY=  0.12084628E+00         XZ=  0.10703265E+00
                YY=  0.12448334E+01         YZ=  0.40110317E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8344607E-02 Y=  0.1548625E-08 Z=  0.4612011E-02  Total=      0.0095343
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079939E+02         XY=  0.41723033E-01         XZ=  0.60013280E-01
                YY= -0.10161239E+02         YZ=  0.23060055E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30225117E-01 Y=  0.45281717E-11 Z= -0.10306766E-06   Total=     0.03022512
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67366236E+00         XY= -0.28558596E+00         XZ= -0.25285723E+00
                YY=  0.12448333E+01         YZ= -0.97381217E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4427123E-02 Y=  0.1548987E-08 Z=  0.4611779E-02  Total=      0.0063928
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119114E+02         XY=  0.22135614E-01         XZ=  0.42665172E-01
                YY= -0.10161239E+02         YZ=  0.23058893E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61740314E-01 Y= -0.21991790E-11 Z= -0.12222522E-06   Total=     0.06174031
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78112307E-01         XY= -0.58336143E+00         XZ= -0.51654176E+00
                YY=  0.12448341E+01         YZ= -0.11548812E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1174816E-02 Y=  0.1548842E-08 Z=  0.4611692E-02  Total=      0.0047590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175133E+02         XY= -0.58740822E-02         XZ=  0.17857885E-01
                YY= -0.10161239E+02         YZ=  0.23058458E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69764971E-01 Y= -0.10460158E-10 Z=  0.10724439E-07   Total=     0.06976497
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73532680E-01         XY= -0.65918345E+00         XZ= -0.58369478E+00
                YY=  0.12448346E+01         YZ=  0.10124179E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6329815E-02 Y=  0.1557656E-08 Z=  0.4611868E-02  Total=      0.0078317
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226683E+02         XY= -0.31649076E-01         XZ= -0.49696077E-02
                YY= -0.10161239E+02         YZ=  0.23059336E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51245799E-01 Y= -0.16680470E-10 Z=  0.11149755E-06   Total=     0.05124580
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27642748E+00         XY= -0.48420263E+00         XZ= -0.42876658E+00
                YY=  0.12448342E+01         YZ=  0.10533577E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9076518E-02 Y=  0.1559173E-08 Z=  0.4612061E-02  Total=      0.0101811
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254151E+02         XY= -0.45382592E-01         XZ= -0.17132865E-01
                YY= -0.10161239E+02         YZ=  0.23060305E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13228770E-01 Y= -0.18208011E-10 Z=  0.40256482E-07   Total=     0.01322877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99484525E+00         XY= -0.12499377E+00         XZ= -0.11070356E+00
                YY=  0.12448333E+01         YZ=  0.38021452E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8369860E-02 Y=  0.1559462E-08 Z=  0.4612004E-02  Total=      0.0095564
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247084E+02         XY= -0.41849301E-01         XZ= -0.14004987E-01
                YY= -0.10161239E+02         YZ=  0.23060017E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29821657E-01 Y= -0.14427139E-10 Z= -0.10516089E-06   Total=     0.02982166
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18083819E+01         XY=  0.28177383E+00         XZ=  0.24948036E+00
                YY=  0.12448333E+01         YZ= -0.99374872E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4478690E-02 Y=  0.1558595E-08 Z=  0.4611771E-02  Total=      0.0064286
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208172E+02         XY= -0.22393452E-01         XZ=  0.32242863E-02
                YY= -0.10161239E+02         YZ=  0.23058855E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61525875E-01 Y= -0.69789520E-11 Z= -0.12379723E-06   Total=     0.06152587
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24075057E+01         XY=  0.58133527E+00         XZ=  0.51474541E+00
                YY=  0.12448340E+01         YZ= -0.11697743E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1116511E-02 Y=  0.1557656E-08 Z=  0.4611682E-02  Total=      0.0047449
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152220E+02         XY=  0.55825535E-02         XZ=  0.28000836E-01
                YY= -0.10161239E+02         YZ=  0.23058407E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69821152E-01 Y=  0.99330146E-12 Z=  0.11403085E-07   Total=     0.06982115
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25642628E+01         XY=  0.65971428E+00         XZ=  0.58416432E+00
                YY=  0.12448346E+01         YZ=  0.10775020E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6286913E-02 Y=  0.1565313E-08 Z=  0.4611856E-02  Total=      0.0077971
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100516E+02         XY=  0.31434562E-01         XZ=  0.50898233E-01
                YY= -0.10161239E+02         YZ=  0.23059278E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51551229E-01 Y=  0.62236594E-11 Z=  0.11592544E-06   Total=     0.05155123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22190098E+01         XY=  0.48708852E+00         XZ=  0.43132265E+00
                YY=  0.12448341E+01         YZ=  0.10953869E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9065300E-02 Y=  0.1566324E-08 Z=  0.4612052E-02  Total=      0.0101711
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072732E+02         XY=  0.45326499E-01         XZ=  0.63203664E-01
                YY= -0.10161239E+02         YZ=  0.23060257E-01         ZZ= -0.12217316E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13667240E-01 Y=  0.67135763E-11 Z=  0.47455096E-07   Total=     0.01366724
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15031062E+01         XY=  0.12913671E+00         XZ=  0.11437094E+00
                YY=  0.12448333E+01         YZ=  0.44843982E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8394553E-02 Y=  0.1567480E-08 Z=  0.4611997E-02  Total=      0.0095781
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079440E+02         XY=  0.41972764E-01         XZ=  0.60234160E-01
                YY= -0.10161239E+02         YZ=  0.23059985E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29416980E-01 Y=  0.25331344E-11 Z= -0.98501470E-07   Total=     0.02941698
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68893389E+00         XY= -0.27795018E+00         XZ= -0.24609847E+00
                YY=  0.12448333E+01         YZ= -0.93068498E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4529858E-02 Y=  0.1568781E-08 Z=  0.4611766E-02  Total=      0.0064644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118087E+02         XY=  0.22649288E-01         XZ=  0.43119721E-01
                YY= -0.10161239E+02         YZ=  0.23058826E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61308973E-01 Y= -0.42921425E-11 Z= -0.12058331E-06   Total=     0.06130897
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86263465E-01         XY= -0.57928584E+00         XZ= -0.51293451E+00
                YY=  0.12448340E+01         YZ= -0.11393853E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1058379E-02 Y=  0.1570081E-08 Z=  0.4611674E-02  Total=      0.0047316
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173969E+02         XY= -0.52918964E-02         XZ=  0.18373048E-01
                YY= -0.10161239E+02         YZ=  0.23058366E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69874573E-01 Y= -0.10725602E-10 Z=  0.10861242E-07   Total=     0.06987457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75603844E-01         XY= -0.66021904E+00         XZ= -0.58461188E+00
                YY=  0.12448346E+01         YZ=  0.10253206E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6243978E-02 Y=  0.1577811E-08 Z=  0.4611846E-02  Total=      0.0077625
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225825E+02         XY= -0.31219892E-01         XZ= -0.45899396E-02
                YY= -0.10161239E+02         YZ=  0.23059228E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51854679E-01 Y= -0.14051431E-10 Z=  0.11320487E-06   Total=     0.05185468
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26492133E+00         XY= -0.48995571E+00         XZ= -0.43385945E+00
                YY=  0.12448341E+01         YZ=  0.10695115E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9053945E-02 Y=  0.1578172E-08 Z=  0.4612043E-02  Total=      0.0101609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253925E+02         XY= -0.45269726E-01         XZ= -0.17033247E-01
                YY= -0.10161239E+02         YZ=  0.23060213E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14105299E-01 Y= -0.12999145E-10 Z=  0.43834319E-07   Total=     0.01410530
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97828124E+00         XY= -0.13327576E+00         XZ= -0.11803481E+00
                YY=  0.12448333E+01         YZ=  0.41406387E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8419146E-02 Y=  0.1578894E-08 Z=  0.4611991E-02  Total=      0.0095996
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247577E+02         XY= -0.42095733E-01         XZ= -0.14223450E-01
                YY= -0.10161239E+02         YZ=  0.23059953E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29010950E-01 Y= -0.81881627E-11 Z= -0.10261778E-06   Total=     0.02901095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17930617E+01         XY=  0.27411375E+00         XZ=  0.24269985E+00
                YY=  0.12448332E+01         YZ= -0.96966756E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4581093E-02 Y=  0.1578822E-08 Z=  0.4611759E-02  Total=      0.0065004
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209196E+02         XY= -0.22905468E-01         XZ=  0.27706983E-02
                YY= -0.10161239E+02         YZ=  0.23058795E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61089430E-01 Y= -0.17394801E-11 Z= -0.12420640E-06   Total=     0.06108943
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23992581E+01         XY=  0.57721147E+00         XZ=  0.51109540E+00
                YY=  0.12448340E+01         YZ= -0.11735965E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9999437E-03 Y=  0.1579111E-08 Z=  0.4611665E-02  Total=      0.0047188
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153386E+02         XY=  0.49997167E-02         XZ=  0.27484539E-01
                YY= -0.10161239E+02         YZ=  0.23058321E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69925039E-01 Y=  0.37260646E-11 Z=  0.10083570E-07   Total=     0.06992504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25662260E+01         XY=  0.66069587E+00         XZ=  0.58503377E+00
                YY=  0.12448345E+01         YZ=  0.95305486E-07         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6200525E-02 Y=  0.1586696E-08 Z=  0.4611835E-02  Total=      0.0077276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101380E+02         XY=  0.31002621E-01         XZ=  0.50515543E-01
                YY= -0.10161239E+02         YZ=  0.23059174E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52155958E-01 Y=  0.62303953E-11 Z=  0.11720497E-06   Total=     0.05215596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22304375E+01         XY=  0.49280238E+00         XZ=  0.43638119E+00
                YY=  0.12448341E+01         YZ=  0.11074769E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9041956E-02 Y=  0.1586913E-08 Z=  0.4612034E-02  Total=      0.0101503
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072966E+02         XY=  0.45209777E-01         XZ=  0.63100102E-01
                YY= -0.10161239E+02         YZ=  0.23060170E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14542779E-01 Y=  0.52173117E-11 Z=  0.51638528E-07   Total=     0.01454278
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15196514E+01         XY=  0.13740934E+00         XZ=  0.12169448E+00
                YY=  0.12448333E+01         YZ=  0.48795531E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8443135E-02 Y=  0.1587058E-08 Z=  0.4611986E-02  Total=      0.0096207
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078954E+02         XY=  0.42215674E-01         XZ=  0.60449055E-01
                YY= -0.10161239E+02         YZ=  0.23059927E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28603700E-01 Y=  0.16566253E-11 Z= -0.94792975E-07   Total=     0.02860370
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70430262E+00         XY= -0.27026580E+00         XZ= -0.23929584E+00
                YY=  0.12448332E+01         YZ= -0.89565156E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4631886E-02 Y=  0.1587274E-08 Z=  0.4611755E-02  Total=      0.0065363
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117066E+02         XY=  0.23159427E-01         XZ=  0.43571228E-01
                YY= -0.10161239E+02         YZ=  0.23058773E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60867351E-01 Y= -0.25136354E-11 Z= -0.11999294E-06   Total=     0.06086735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94608920E-01         XY= -0.57511312E+00         XZ= -0.50924070E+00
                YY=  0.12448340E+01         YZ= -0.11337914E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9417192E-03 Y=  0.1587635E-08 Z=  0.4611658E-02  Total=      0.0047068
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172802E+02         XY= -0.47085978E-02         XZ=  0.18889301E-01
                YY= -0.10161239E+02         YZ=  0.23058288E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69972634E-01 Y= -0.53079705E-11 Z=  0.97717991E-08   Total=     0.06997263
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77456907E-01         XY= -0.66114558E+00         XZ= -0.58543227E+00
                YY=  0.12448345E+01         YZ=  0.92284531E-07         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6157069E-02 Y=  0.1595799E-08 Z=  0.4611827E-02  Total=      0.0076928
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224956E+02         XY= -0.30785349E-01         XZ= -0.42054220E-02
                YY= -0.10161239E+02         YZ=  0.23059131E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52455153E-01 Y= -0.55404317E-11 Z=  0.11374275E-06   Total=     0.05245515
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25357402E+00         XY= -0.49562937E+00         XZ= -0.43888222E+00
                YY=  0.12448341E+01         YZ=  0.10746659E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9029855E-02 Y=  0.1597027E-08 Z=  0.4612027E-02  Total=      0.0101395
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253684E+02         XY= -0.45149278E-01         XZ= -0.16926827E-01
                YY= -0.10161239E+02         YZ=  0.23060132E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14979794E-01 Y= -0.32324743E-11 Z=  0.46542709E-07   Total=     0.01497979
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96175565E+00         XY= -0.14153854E+00         XZ= -0.12534957E+00
                YY=  0.12448333E+01         YZ=  0.43973681E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8467050E-02 Y=  0.1596666E-08 Z=  0.4611981E-02  Total=      0.0096416
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248056E+02         XY= -0.42335250E-01         XZ= -0.14435728E-01
                YY= -0.10161239E+02         YZ=  0.23059901E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28195067E-01 Y=  0.54874742E-12 Z= -0.10059884E-06   Total=     0.02819507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17776437E+01         XY=  0.26640477E+00         XZ=  0.23587533E+00
                YY=  0.12448332E+01         YZ= -0.95051778E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4682779E-02 Y=  0.1596015E-08 Z=  0.4611750E-02  Total=      0.0065724
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210213E+02         XY= -0.23413898E-01         XZ=  0.23203164E-02
                YY= -0.10161239E+02         YZ=  0.23058746E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60642492E-01 Y=  0.42882269E-11 Z= -0.12495038E-06   Total=     0.06064249
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23908122E+01         XY=  0.57298851E+00         XZ=  0.50735685E+00
                YY=  0.12448339E+01         YZ= -0.11805754E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8831416E-03 Y=  0.1596304E-08 Z=  0.4611650E-02  Total=      0.0046955
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154554E+02         XY=  0.44157062E-02         XZ=  0.26967205E-01
                YY= -0.10161239E+02         YZ=  0.23058247E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70017021E-01 Y=  0.67363016E-11 Z=  0.84216818E-08   Total=     0.07001702
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25679642E+01         XY=  0.66156497E+00         XZ=  0.58580294E+00
                YY=  0.12448345E+01         YZ=  0.79628317E-07         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6113020E-02 Y=  0.1604395E-08 Z=  0.4611817E-02  Total=      0.0076575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102255E+02         XY=  0.30565096E-01         XZ=  0.50127884E-01
                YY= -0.10161239E+02         YZ=  0.23059082E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52751815E-01 Y=  0.73970668E-11 Z=  0.11801518E-06   Total=     0.05275181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22416976E+01         XY=  0.49843242E+00         XZ=  0.44136500E+00
                YY=  0.12448341E+01         YZ=  0.11151423E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9017011E-02 Y=  0.1606129E-08 Z=  0.4612019E-02  Total=      0.0101280
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073215E+02         XY=  0.45085055E-01         XZ=  0.62989413E-01
                YY= -0.10161239E+02         YZ=  0.23060093E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15415775E-01 Y=  0.65994321E-11 Z=  0.55173014E-07   Total=     0.01541578
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15361486E+01         XY=  0.14565797E+00         XZ=  0.12899644E+00
                YY=  0.12448333E+01         YZ=  0.52136321E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8490210E-02 Y=  0.1607791E-08 Z=  0.4611976E-02  Total=      0.0096620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078483E+02         XY=  0.42451048E-01         XZ=  0.60657227E-01
                YY= -0.10161239E+02         YZ=  0.23059880E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27785731E-01 Y=  0.51738182E-11 Z= -0.91926933E-07   Total=     0.02778573
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71975996E+00         XY= -0.26253711E+00         XZ= -0.23245410E+00
                YY=  0.12448332E+01         YZ= -0.86854172E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4733036E-02 Y=  0.1609524E-08 Z=  0.4611746E-02  Total=      0.0066083
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116055E+02         XY=  0.23665179E-01         XZ=  0.44018801E-01
                YY= -0.10161239E+02         YZ=  0.23058730E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60415637E-01 Y=  0.39467120E-11 Z= -0.12035601E-06   Total=     0.06041564
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10314507E+00         XY= -0.57084504E+00         XZ= -0.50546239E+00
                YY=  0.12448339E+01         YZ= -0.11371678E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8250129E-03 Y=  0.1610030E-08 Z=  0.4611644E-02  Total=      0.0046849
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171635E+02         XY= -0.41250664E-02         XZ=  0.19405719E-01
                YY= -0.10161239E+02         YZ=  0.23058219E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70059055E-01 Y=  0.33321540E-11 Z=  0.78526916E-08   Total=     0.07005905
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.79089992E-01         XY= -0.66196213E+00         XZ= -0.58615501E+00
                YY=  0.12448345E+01         YZ=  0.74223618E-07         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6069247E-02 Y=  0.1617326E-08 Z=  0.4611809E-02  Total=      0.0076226
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224078E+02         XY= -0.30346237E-01         XZ= -0.38168863E-02
                YY= -0.10161239E+02         YZ=  0.23059044E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53046842E-01 Y=  0.32169543E-11 Z=  0.11385805E-06   Total=     0.05304684
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24239273E+00         XY= -0.50122002E+00         XZ= -0.44383104E+00
                YY=  0.12448341E+01         YZ=  0.10758279E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9004368E-02 Y=  0.1617399E-08 Z=  0.4612012E-02  Total=      0.0101168
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253429E+02         XY= -0.45021844E-01         XZ= -0.16814227E-01
                YY= -0.10161239E+02         YZ=  0.23060059E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15851635E-01 Y=  0.31623982E-11 Z=  0.49335318E-07   Total=     0.01585164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94528021E+00         XY= -0.14977625E+00         XZ= -0.13264152E+00
                YY=  0.12448333E+01         YZ=  0.46617574E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8513633E-02 Y=  0.1618049E-08 Z=  0.4611972E-02  Total=      0.0096826
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248522E+02         XY= -0.42568169E-01         XZ= -0.14642140E-01
                YY= -0.10161239E+02         YZ=  0.23059858E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27374798E-01 Y=  0.27710955E-11 Z= -0.98192477E-07   Total=     0.02737480
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17621429E+01         XY=  0.25865435E+00         XZ=  0.22901489E+00
                YY=  0.12448331E+01         YZ= -0.92776348E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4783746E-02 Y=  0.1618338E-08 Z=  0.4611742E-02  Total=      0.0066447
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211223E+02         XY= -0.23918731E-01         XZ=  0.18731796E-02
                YY= -0.10161239E+02         YZ=  0.23058708E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60185924E-01 Y=  0.19880246E-11 Z= -0.12535303E-06   Total=     0.06018592
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23821843E+01         XY=  0.56867457E+00         XZ=  0.50353860E+00
                YY=  0.12448339E+01         YZ= -0.11844003E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7661750E-03 Y=  0.1617904E-08 Z=  0.4611637E-02  Total=      0.0046748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155723E+02         XY=  0.38308731E-02         XZ=  0.26449239E-01
                YY= -0.10161239E+02         YZ=  0.23058183E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70097928E-01 Y=  0.11505407E-11 Z=  0.68559361E-08   Total=     0.07009793
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25694931E+01         XY=  0.66232943E+00         XZ=  0.58648033E+00
                YY=  0.12448344E+01         YZ=  0.64786152E-07         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6024528E-02 Y=  0.1624912E-08 Z=  0.4611800E-02  Total=      0.0075871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103140E+02         XY=  0.30122640E-01         XZ=  0.49735992E-01
                YY= -0.10161239E+02         YZ=  0.23058999E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53339486E-01 Y=  0.75569906E-12 Z=  0.11876172E-06   Total=     0.05333949
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22528030E+01         XY=  0.50398510E+00         XZ=  0.44628110E+00
                YY=  0.12448341E+01         YZ=  0.11221392E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8990642E-02 Y=  0.1625562E-08 Z=  0.4612005E-02  Total=      0.0101046
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073479E+02         XY=  0.44953210E-01         XZ=  0.62872581E-01
                YY= -0.10161239E+02         YZ=  0.23060024E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16286684E-01 Y=  0.10831510E-11 Z=  0.58716630E-07   Total=     0.01628668
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15526064E+01         XY=  0.15388686E+00         XZ=  0.13628150E+00
                YY=  0.12448332E+01         YZ=  0.55479793E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8535978E-02 Y=  0.1626284E-08 Z=  0.4611969E-02  Total=      0.0097022
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078026E+02         XY=  0.42679890E-01         XZ=  0.60859797E-01
                YY= -0.10161239E+02         YZ=  0.23059841E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26962900E-01 Y=  0.19058378E-11 Z= -0.88815490E-07   Total=     0.02696290
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73530918E+00         XY= -0.25476249E+00         XZ= -0.22557145E+00
                YY=  0.12448331E+01         YZ= -0.83917179E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4833512E-02 Y=  0.1626501E-08 Z=  0.4611740E-02  Total=      0.0066806
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115050E+02         XY=  0.24167559E-01         XZ=  0.44463573E-01
                YY= -0.10161239E+02         YZ=  0.23058696E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59953943E-01 Y=  0.24871865E-11 Z= -0.12020356E-06   Total=     0.05995394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11186981E+00         XY= -0.56648266E+00         XZ= -0.50160075E+00
                YY=  0.12448339E+01         YZ= -0.11357413E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7080754E-03 Y=  0.1626718E-08 Z=  0.4611632E-02  Total=      0.0046657
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170466E+02         XY= -0.35403788E-02         XZ=  0.19923333E-01
                YY= -0.10161239E+02         YZ=  0.23058160E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70134191E-01 Y=  0.19113824E-11 Z=  0.67131658E-08   Total=     0.07013419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80509838E-01         XY= -0.66267207E+00         XZ= -0.58678387E+00
                YY=  0.12448344E+01         YZ=  0.63442980E-07         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5980361E-02 Y=  0.1634809E-08 Z=  0.4611793E-02  Total=      0.0075520
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223189E+02         XY= -0.29901808E-01         XZ= -0.34234992E-02
                YY= -0.10161239E+02         YZ=  0.23058965E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53630275E-01 Y= -0.39759923E-12 Z=  0.11502094E-06   Total=     0.05363027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23136746E+00         XY= -0.50673266E+00         XZ= -0.44871161E+00
                YY=  0.12448340E+01         YZ=  0.10867837E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8977380E-02 Y=  0.1635025E-08 Z=  0.4611999E-02  Total=      0.0100928
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253159E+02         XY= -0.44886902E-01         XZ= -0.16694873E-01
                YY= -0.10161239E+02         YZ=  0.23059995E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16721443E-01 Y= -0.42392006E-11 Z=  0.53383067E-07   Total=     0.01672144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92884319E+00         XY= -0.15799474E+00         XZ= -0.13991741E+00
                YY=  0.12448332E+01         YZ=  0.50435777E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8558842E-02 Y=  0.1634592E-08 Z=  0.4611965E-02  Total=      0.0097223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248974E+02         XY= -0.42794213E-01         XZ= -0.14842399E-01
                YY= -0.10161239E+02         YZ=  0.23059823E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26549508E-01 Y= -0.85455077E-11 Z= -0.94513614E-07   Total=     0.02654951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17465471E+01         XY=  0.25085649E+00         XZ=  0.22211153E+00
                YY=  0.12448331E+01         YZ= -0.89309957E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4883986E-02 Y=  0.1634086E-08 Z=  0.4611736E-02  Total=      0.0067172
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212225E+02         XY= -0.24419930E-01         XZ=  0.14292896E-02
                YY= -0.10161239E+02         YZ=  0.23058679E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59719136E-01 Y= -0.11745755E-10 Z= -0.12470005E-06   Total=     0.05971914
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23733633E+01         XY=  0.56426406E+00         XZ=  0.49963414E+00
                YY=  0.12448338E+01         YZ= -0.11783469E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6490080E-03 Y=  0.1633147E-08 Z=  0.4611626E-02  Total=      0.0046571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156895E+02         XY=  0.32450379E-02         XZ=  0.25930391E-01
                YY= -0.10161239E+02         YZ=  0.23058130E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70167255E-01 Y= -0.12464452E-10 Z=  0.60152953E-08   Total=     0.07016726
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25708033E+01         XY=  0.66298448E+00         XZ=  0.58706045E+00
                YY=  0.12448344E+01         YZ=  0.56728012E-07         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5934980E-02 Y=  0.1638710E-08 Z=  0.4611786E-02  Total=      0.0075162
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104035E+02         XY=  0.29674899E-01         XZ=  0.49339415E-01
                YY= -0.10161239E+02         YZ=  0.23058926E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53918587E-01 Y= -0.10238828E-10 Z=  0.11995457E-06   Total=     0.05391859
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22637464E+01         XY=  0.50945682E+00         XZ=  0.45112545E+00
                YY=  0.12448340E+01         YZ=  0.11333169E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8962754E-02 Y=  0.1637915E-08 Z=  0.4611993E-02  Total=      0.0100798
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073758E+02         XY=  0.44813769E-01         XZ=  0.62749020E-01
                YY= -0.10161239E+02         YZ=  0.23059965E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17155272E-01 Y= -0.58886902E-11 Z=  0.62519757E-07   Total=     0.01715527
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15690203E+01         XY=  0.16209382E+00         XZ=  0.14354738E+00
                YY=  0.12448332E+01         YZ=  0.59067299E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8580335E-02 Y=  0.1637771E-08 Z=  0.4611963E-02  Total=      0.0097413
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077582E+02         XY=  0.42901673E-01         XZ=  0.61056131E-01
                YY= -0.10161239E+02         YZ=  0.23059811E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26135260E-01 Y= -0.13073055E-11 Z= -0.85621016E-07   Total=     0.02613526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75094928E+00         XY= -0.24694242E+00         XZ= -0.21864808E+00
                YY=  0.12448331E+01         YZ= -0.80901599E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4933214E-02 Y=  0.1637554E-08 Z=  0.4611735E-02  Total=      0.0067531
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114053E+02         XY=  0.24666067E-01         XZ=  0.44904957E-01
                YY= -0.10161239E+02         YZ=  0.23058671E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59482115E-01 Y=  0.13001334E-11 Z= -0.12017629E-06   Total=     0.05948211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12078606E+00         XY= -0.56202453E+00         XZ= -0.49765370E+00
                YY=  0.12448338E+01         YZ= -0.11354941E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5909836E-03 Y=  0.1637409E-08 Z=  0.4611623E-02  Total=      0.0046493
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169295E+02         XY= -0.29549197E-02         XZ=  0.20441697E-01
                YY= -0.10161239E+02         YZ=  0.23058111E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70197674E-01 Y=  0.42304581E-12 Z=  0.52892261E-08   Total=     0.07019767
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81709469E-01         XY= -0.66327189E+00         XZ= -0.58731460E+00
                YY=  0.12448344E+01         YZ=  0.49975850E-07         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5890450E-02 Y=  0.1644417E-08 Z=  0.4611780E-02  Total=      0.0074810
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222290E+02         XY= -0.29452249E-01         XZ= -0.30254773E-02
                YY= -0.10161239E+02         YZ=  0.23058896E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54204900E-01 Y= -0.39661819E-11 Z=  0.11586658E-06   Total=     0.05420490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22050863E+00         XY= -0.51216208E+00         XZ= -0.45351791E+00
                YY=  0.12448340E+01         YZ=  0.10947436E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8948876E-02 Y=  0.1644272E-08 Z=  0.4611988E-02  Total=      0.0100674
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252874E+02         XY= -0.44744381E-01         XZ= -0.16568696E-01
                YY= -0.10161239E+02         YZ=  0.23059939E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17588562E-01 Y= -0.10241932E-10 Z=  0.57113609E-07   Total=     0.01758856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91245701E+00         XY= -0.16618782E+00         XZ= -0.14717032E+00
                YY=  0.12448332E+01         YZ=  0.53955581E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8602607E-02 Y=  0.1642538E-08 Z=  0.4611960E-02  Total=      0.0097609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249411E+02         XY= -0.43013038E-01         XZ= -0.15036138E-01
                YY= -0.10161239E+02         YZ=  0.23059796E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25719841E-01 Y= -0.15716266E-10 Z= -0.91342552E-07   Total=     0.02571984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17308687E+01         XY=  0.24301728E+00         XZ=  0.21517189E+00
                YY=  0.12448331E+01         YZ= -0.86319756E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4983382E-02 Y=  0.1640227E-08 Z=  0.4611732E-02  Total=      0.0067899
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213219E+02         XY= -0.24916911E-01         XZ=  0.98927280E-03
                YY= -0.10161239E+02         YZ=  0.23058657E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59242623E-01 Y= -0.17783395E-10 Z= -0.12504894E-06   Total=     0.05924262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23643585E+01         XY=  0.55976167E+00         XZ=  0.49564851E+00
                YY=  0.12448338E+01         YZ= -0.11816941E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5317877E-03 Y=  0.1638204E-08 Z=  0.4611617E-02  Total=      0.0046422
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158067E+02         XY=  0.26589364E-02         XZ=  0.25411450E-01
                YY= -0.10161239E+02         YZ=  0.23058083E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70225231E-01 Y= -0.15127092E-10 Z=  0.35368806E-08   Total=     0.07022523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25718989E+01         XY=  0.66353227E+00         XZ=  0.58754564E+00
                YY=  0.12448344E+01         YZ=  0.33288153E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5844528E-02 Y=  0.1644344E-08 Z=  0.4611772E-02  Total=      0.0074449
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104940E+02         XY=  0.29222636E-01         XZ=  0.48938973E-01
                YY= -0.10161239E+02         YZ=  0.23058858E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54489017E-01 Y= -0.84322899E-11 Z=  0.11905276E-06   Total=     0.05448902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22745260E+01         XY=  0.51484659E+00         XZ=  0.45589714E+00
                YY=  0.12448340E+01         YZ=  0.11248113E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8933478E-02 Y=  0.1645139E-08 Z=  0.4611982E-02  Total=      0.0100537
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074051E+02         XY=  0.44667388E-01         XZ=  0.62619445E-01
                YY= -0.10161239E+02         YZ=  0.23059909E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18021121E-01 Y= -0.23310454E-12 Z=  0.64159137E-07   Total=     0.01802112
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15853825E+01         XY=  0.17027492E+00         XZ=  0.15079011E+00
                YY=  0.12448332E+01         YZ=  0.60621048E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8623367E-02 Y=  0.1646078E-08 Z=  0.4611957E-02  Total=      0.0097792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077152E+02         XY=  0.43116835E-01         XZ=  0.61246719E-01
                YY= -0.10161239E+02         YZ=  0.23059784E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25303448E-01 Y=  0.60943917E-11 Z= -0.84311945E-07   Total=     0.02530345
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76666822E+00         XY= -0.23908293E+00         XZ= -0.21169021E+00
                YY=  0.12448331E+01         YZ= -0.79658489E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5032173E-02 Y=  0.1646439E-08 Z=  0.4611730E-02  Total=      0.0068257
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113063E+02         XY=  0.25160864E-01         XZ=  0.45343152E-01
                YY= -0.10161239E+02         YZ=  0.23058650E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59000866E-01 Y=  0.77890172E-11 Z= -0.12159779E-06   Total=     0.05900087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12988035E+00         XY= -0.55747739E+00         XZ= -0.49362839E+00
                YY=  0.12448338E+01         YZ= -0.11488710E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4737614E-03 Y=  0.1646656E-08 Z=  0.4611613E-02  Total=      0.0046359
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168123E+02         XY= -0.23688090E-02         XZ=  0.20960711E-01
                YY= -0.10161239E+02         YZ=  0.23058064E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70250141E-01 Y=  0.39721720E-11 Z=  0.28386396E-08   Total=     0.07025014
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82700909E-01         XY= -0.66376763E+00         XZ= -0.58775381E+00
                YY=  0.12448344E+01         YZ=  0.26850820E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5799581E-02 Y=  0.1654530E-08 Z=  0.4611766E-02  Total=      0.0074097
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221381E+02         XY= -0.28997905E-01         XZ= -0.26231725E-02
                YY= -0.10161239E+02         YZ=  0.23058828E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54771162E-01 Y= -0.38615341E-11 Z=  0.11597961E-06   Total=     0.05477116
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20980787E+00         XY= -0.51751248E+00         XZ= -0.45825490E+00
                YY=  0.12448340E+01         YZ=  0.10958123E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8918952E-02 Y=  0.1654386E-08 Z=  0.4611977E-02  Total=      0.0100408
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252575E+02         XY= -0.44594764E-01         XZ= -0.16436217E-01
                YY= -0.10161239E+02         YZ=  0.23059883E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18453193E-01 Y= -0.12393262E-10 Z=  0.60180641E-07   Total=     0.01845319
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89611784E+00         XY= -0.17435741E+00         XZ= -0.15440300E+00
                YY=  0.12448332E+01         YZ=  0.56851686E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8645034E-02 Y=  0.1652508E-08 Z=  0.4611954E-02  Total=      0.0097983
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249836E+02         XY= -0.43225171E-01         XZ= -0.15223954E-01
                YY= -0.10161239E+02         YZ=  0.23059770E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24885809E-01 Y= -0.17871264E-10 Z= -0.89040407E-07   Total=     0.02488581
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17151077E+01         XY=  0.23513682E+00         XZ=  0.20819534E+00
                YY=  0.12448330E+01         YZ= -0.84146362E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5082035E-02 Y=  0.1650629E-08 Z=  0.4611728E-02  Total=      0.0068626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214205E+02         XY= -0.25410179E-01         XZ=  0.55252968E-03
                YY= -0.10161239E+02         YZ=  0.23058637E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58756540E-01 Y= -0.17753550E-10 Z= -0.12664006E-06   Total=     0.05875654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23551728E+01         XY=  0.55516884E+00         XZ=  0.49158267E+00
                YY=  0.12448338E+01         YZ= -0.11967278E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4144258E-03 Y=  0.1649040E-08 Z=  0.4611608E-02  Total=      0.0046302
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159241E+02         XY=  0.20721270E-02         XZ=  0.24891865E-01
                YY= -0.10161239E+02         YZ=  0.23058037E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70272070E-01 Y= -0.11873950E-10 Z= -0.45944570E-09   Total=     0.07027207
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25727841E+01         XY=  0.66397484E+00         XZ=  0.58793779E+00
                YY=  0.12448344E+01         YZ= -0.44444556E-08         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5753097E-02 Y=  0.1654458E-08 Z=  0.4611758E-02  Total=      0.0073734
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105854E+02         XY=  0.28765482E-01         XZ=  0.48534193E-01
                YY= -0.10161239E+02         YZ=  0.23058790E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55050994E-01 Y= -0.25903415E-11 Z=  0.11667560E-06   Total=     0.05505099
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22851459E+01         XY=  0.52015651E+00         XZ=  0.46059849E+00
                YY=  0.12448340E+01         YZ=  0.11023991E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8902755E-02 Y=  0.1654530E-08 Z=  0.4611971E-02  Total=      0.0100264
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074358E+02         XY=  0.44513771E-01         XZ=  0.62483474E-01
                YY= -0.10161239E+02         YZ=  0.23059852E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18884455E-01 Y=  0.61818444E-11 Z=  0.64629756E-07   Total=     0.01888445
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16016971E+01         XY=  0.17843224E+00         XZ=  0.15801231E+00
                YY=  0.12448332E+01         YZ=  0.61071056E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8665033E-02 Y=  0.1654964E-08 Z=  0.4611951E-02  Total=      0.0098160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076735E+02         XY=  0.43325163E-01         XZ=  0.61431292E-01
                YY= -0.10161239E+02         YZ=  0.23059755E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24467200E-01 Y=  0.10653349E-10 Z= -0.83911614E-07   Total=     0.02446720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78247101E+00         XY= -0.23118153E+00         XZ= -0.20469468E+00
                YY=  0.12448330E+01         YZ= -0.79276471E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5130371E-02 Y=  0.1655470E-08 Z=  0.4611726E-02  Total=      0.0068985
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112081E+02         XY=  0.25651851E-01         XZ=  0.45778034E-01
                YY= -0.10161239E+02         YZ=  0.23058626E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58509840E-01 Y=  0.88310430E-11 Z= -0.12399948E-06   Total=     0.05850984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13915942E+00         XY= -0.55283787E+00         XZ= -0.48952079E+00
                YY=  0.12448337E+01         YZ= -0.11715556E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3563956E-03 Y=  0.1656625E-08 Z=  0.4611603E-02  Total=      0.0046254
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166949E+02         XY= -0.17819800E-02         XZ=  0.21480440E-01
                YY= -0.10161239E+02         YZ=  0.23058015E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70291121E-01 Y=  0.14335068E-11 Z= -0.10011970E-08   Total=     0.07029112
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83475287E-01         XY= -0.66415484E+00         XZ= -0.58809661E+00
                YY=  0.12448343E+01         YZ= -0.94524620E-08         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5707700E-02 Y=  0.1663777E-08 Z=  0.4611752E-02  Total=      0.0073380
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220462E+02         XY= -0.28538500E-01         XZ= -0.22162978E-02
                YY= -0.10161239E+02         YZ=  0.23058756E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55328516E-01 Y= -0.83693504E-11 Z=  0.11419512E-06   Total=     0.05532852
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19927544E+00         XY= -0.52277871E+00         XZ= -0.46291725E+00
                YY=  0.12448340E+01         YZ=  0.10789128E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8887509E-02 Y=  0.1663416E-08 Z=  0.4611965E-02  Total=      0.0100129
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252260E+02         XY= -0.44437548E-01         XZ= -0.16296920E-01
                YY= -0.10161239E+02         YZ=  0.23059822E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19314821E-01 Y= -0.16296503E-10 Z=  0.60983019E-07   Total=     0.01931482
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87983544E+00         XY= -0.18249861E+00         XZ= -0.16161063E+00
                YY=  0.12448332E+01         YZ=  0.57606481E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8685984E-02 Y=  0.1661971E-08 Z=  0.4611948E-02  Total=      0.0098344
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250245E+02         XY= -0.43429920E-01         XZ= -0.15405150E-01
                YY= -0.10161239E+02         YZ=  0.23059738E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24047771E-01 Y= -0.18798460E-10 Z= -0.89147090E-07   Total=     0.02404777
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16992711E+01         XY=  0.22721850E+00         XZ=  0.20118502E+00
                YY=  0.12448330E+01         YZ= -0.84248010E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5179787E-02 Y=  0.1659876E-08 Z=  0.4611722E-02  Total=      0.0069353
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215183E+02         XY= -0.25898935E-01         XZ=  0.11985108E-03
                YY= -0.10161239E+02         YZ=  0.23058610E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58260965E-01 Y= -0.14599729E-10 Z= -0.13058410E-06   Total=     0.05826096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23458078E+01         XY=  0.55048634E+00         XZ=  0.48743707E+00
                YY=  0.12448337E+01         YZ= -0.12339680E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2970777E-03 Y=  0.1657709E-08 Z=  0.4611597E-02  Total=      0.0046212
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160414E+02         XY=  0.14853864E-02         XZ=  0.24372396E-01
                YY= -0.10161239E+02         YZ=  0.23057984E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70307521E-01 Y= -0.52609178E-11 Z= -0.65669634E-08   Total=     0.07030752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25734540E+01         XY=  0.66430980E+00         XZ=  0.58823427E+00
                YY=  0.12448343E+01         YZ= -0.62097719E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5660813E-02 Y=  0.1663344E-08 Z=  0.4611743E-02  Total=      0.0073016
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106777E+02         XY=  0.28304064E-01         XZ=  0.48125673E-01
                YY= -0.10161239E+02         YZ=  0.23058713E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55603978E-01 Y=  0.54897797E-11 Z=  0.11259765E-06   Total=     0.05560398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22955958E+01         XY=  0.52538146E+00         XZ=  0.46522422E+00
                YY=  0.12448340E+01         YZ=  0.10639346E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8870661E-02 Y=  0.1663777E-08 Z=  0.4611957E-02  Total=      0.0099979
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074679E+02         XY=  0.44353302E-01         XZ=  0.62341454E-01
                YY= -0.10161239E+02         YZ=  0.23059785E-01         ZZ= -0.12217317E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19744569E-01 Y=  0.13366737E-10 Z=  0.63869538E-07   Total=     0.01974457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16179509E+01         XY=  0.18655914E+00         XZ=  0.16520723E+00
                YY=  0.12448332E+01         YZ=  0.60358644E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8705353E-02 Y=  0.1664572E-08 Z=  0.4611944E-02  Total=      0.0098516
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076332E+02         XY=  0.43526765E-01         XZ=  0.61609913E-01
                YY= -0.10161239E+02         YZ=  0.23059716E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23627210E-01 Y=  0.15373348E-10 Z= -0.84393106E-07   Total=     0.02362721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79834449E+00         XY= -0.22324478E+00         XZ= -0.19766812E+00
                YY=  0.12448330E+01         YZ= -0.79727590E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5227779E-02 Y=  0.1664644E-08 Z=  0.4611719E-02  Total=      0.0069712
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111107E+02         XY=  0.26138891E-01         XZ=  0.46209414E-01
                YY= -0.10161239E+02         YZ=  0.23058594E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58009560E-01 Y=  0.11078201E-10 Z= -0.12714737E-06   Total=     0.05800956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14861333E+00         XY= -0.54811091E+00         XZ= -0.48533599E+00
                YY=  0.12448337E+01         YZ= -0.12012813E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2389450E-03 Y=  0.1664716E-08 Z=  0.4611592E-02  Total=      0.0046178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165774E+02         XY= -0.11947270E-02         XZ=  0.22000529E-01
                YY= -0.10161239E+02         YZ=  0.23057957E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70320872E-01 Y=  0.27701252E-11 Z= -0.55672997E-08   Total=     0.07032087
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84037472E-01         XY= -0.66443595E+00         XZ= -0.58834559E+00
                YY=  0.12448343E+01         YZ= -0.52585729E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5614875E-02 Y=  0.1672591E-08 Z=  0.4611736E-02  Total=      0.0072660
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219534E+02         XY= -0.28074375E-01         XZ= -0.18052656E-02
                YY= -0.10161239E+02         YZ=  0.23058676E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55876944E-01 Y= -0.55671757E-11 Z=  0.11176759E-06   Total=     0.05587694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18891165E+00         XY= -0.52796061E+00         XZ= -0.46750499E+00
                YY=  0.12448340E+01         YZ=  0.10559984E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8854605E-02 Y=  0.1672735E-08 Z=  0.4611951E-02  Total=      0.0099837
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251931E+02         XY= -0.44273029E-01         XZ= -0.16151182E-01
                YY= -0.10161239E+02         YZ=  0.23059752E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20173227E-01 Y= -0.10002464E-10 Z=  0.61344472E-07   Total=     0.02017323
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86361388E+00         XY= -0.19060937E+00         XZ= -0.16879128E+00
                YY=  0.12448332E+01         YZ=  0.57953180E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8725495E-02 Y=  0.1671507E-08 Z=  0.4611939E-02  Total=      0.0098694
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250640E+02         XY= -0.43627476E-01         XZ= -0.15580000E-01
                YY= -0.10161239E+02         YZ=  0.23059695E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23206021E-01 Y= -0.83567849E-11 Z= -0.89491401E-07   Total=     0.02320602
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16833643E+01         XY=  0.21926512E+00         XZ=  0.19414378E+00
                YY=  0.12448330E+01         YZ= -0.84564696E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5276652E-02 Y=  0.1670857E-08 Z=  0.4611715E-02  Total=      0.0070079
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216152E+02         XY= -0.26383261E-01         XZ= -0.30892314E-03
                YY= -0.10161239E+02         YZ=  0.23058574E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57756160E-01 Y= -0.11174248E-11 Z= -0.13469021E-06   Total=     0.05775616
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23362684E+01         XY=  0.54571663E+00         XZ=  0.48321446E+00
                YY=  0.12448337E+01         YZ= -0.12726533E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1797434E-03 Y=  0.1671146E-08 Z=  0.4611585E-02  Total=      0.0046151
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161588E+02         XY=  0.89871488E-03         XZ=  0.23852977E-01
                YY= -0.10161239E+02         YZ=  0.23057923E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70331744E-01 Y=  0.88166317E-11 Z= -0.12867991E-07   Total=     0.07033174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25739118E+01         XY=  0.66453867E+00         XZ=  0.58843709E+00
                YY=  0.12448343E+01         YZ= -0.12151708E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5567685E-02 Y=  0.1678081E-08 Z=  0.4611726E-02  Total=      0.0072296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107708E+02         XY=  0.27838421E-01         XZ=  0.47713412E-01
                YY= -0.10161239E+02         YZ=  0.23058628E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56148028E-01 Y=  0.17424818E-10 Z=  0.10831359E-06   Total=     0.05614803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23058768E+01         XY=  0.53052198E+00         XZ=  0.46977546E+00
                YY=  0.12448340E+01         YZ=  0.10235549E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8837205E-02 Y=  0.1679309E-08 Z=  0.4611942E-02  Total=      0.0099683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075013E+02         XY=  0.44186022E-01         XZ=  0.62193412E-01
                YY= -0.10161239E+02         YZ=  0.23059708E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20601467E-01 Y=  0.21310166E-10 Z=  0.62962520E-07   Total=     0.02060147
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16341439E+01         XY=  0.19465566E+00         XZ=  0.17237546E+00
                YY=  0.12448332E+01         YZ=  0.59508185E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8744336E-02 Y=  0.1682199E-08 Z=  0.4611934E-02  Total=      0.0098860
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075942E+02         XY=  0.43721676E-01         XZ=  0.61782624E-01
                YY= -0.10161239E+02         YZ=  0.23059667E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22783464E-01 Y=  0.19130476E-10 Z= -0.84974183E-07   Total=     0.02278346
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81428893E+00         XY= -0.21527253E+00         XZ= -0.19061003E+00
                YY=  0.12448330E+01         YZ= -0.80273575E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5324406E-02 Y=  0.1683571E-08 Z=  0.4611711E-02  Total=      0.0070439
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110141E+02         XY=  0.26622030E-01         XZ=  0.46637357E-01
                YY= -0.10161239E+02         YZ=  0.23058552E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57499955E-01 Y=  0.12102702E-10 Z= -0.13044182E-06   Total=     0.05749995
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15824345E+00         XY= -0.54329584E+00         XZ= -0.48107321E+00
                YY=  0.12448336E+01         YZ= -0.12324016E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1213936E-03 Y=  0.1683643E-08 Z=  0.4611579E-02  Total=      0.0046132
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164599E+02         XY= -0.60697000E-03         XZ=  0.22521078E-01
                YY= -0.10161239E+02         YZ=  0.23057891E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70339262E-01 Y=  0.33904784E-11 Z= -0.10347382E-07   Total=     0.07033926
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84384980E-01         XY= -0.66460970E+00         XZ= -0.58849971E+00
                YY=  0.12448343E+01         YZ= -0.97746630E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5521079E-02 Y=  0.1690434E-08 Z=  0.4611718E-02  Total=      0.0071938
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218596E+02         XY= -0.27605399E-01         XZ= -0.13899347E-02
                YY= -0.10161239E+02         YZ=  0.23058585E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56416298E-01 Y= -0.33257356E-11 Z=  0.10922210E-06   Total=     0.05641630
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17871934E+00         XY= -0.53305676E+00         XZ= -0.47201711E+00
                YY=  0.12448340E+01         YZ=  0.10319649E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8820205E-02 Y=  0.1690579E-08 Z=  0.4611935E-02  Total=      0.0099532
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251587E+02         XY= -0.44101029E-01         XZ= -0.15998828E-01
                YY= -0.10161239E+02         YZ=  0.23059671E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21028310E-01 Y= -0.54465256E-11 Z=  0.61942150E-07   Total=     0.02102831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84745511E+00         XY= -0.19868874E+00         XZ= -0.17594447E+00
                YY=  0.12448332E+01         YZ=  0.58521633E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8763528E-02 Y=  0.1690362E-08 Z=  0.4611929E-02  Total=      0.0099030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251020E+02         XY= -0.43817644E-01         XZ= -0.15748331E-01
                YY= -0.10161239E+02         YZ=  0.23059643E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22360561E-01 Y= -0.25186662E-11 Z= -0.89088957E-07   Total=     0.02236056
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16673873E+01         XY=  0.21127668E+00         XZ=  0.18707121E+00
                YY=  0.12448330E+01         YZ= -0.84179632E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5372598E-02 Y=  0.1690579E-08 Z=  0.4611706E-02  Total=      0.0070804
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217111E+02         XY= -0.26862990E-01         XZ= -0.73365948E-03
                YY= -0.10161239E+02         YZ=  0.23058530E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57242011E-01 Y=  0.36786924E-11 Z= -0.13757339E-06   Total=     0.05724201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23265524E+01         XY=  0.54085862E+00         XZ=  0.47891350E+00
                YY=  0.12448336E+01         YZ= -0.12998559E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6244220E-04 Y=  0.1690795E-08 Z=  0.4611571E-02  Total=      0.0046120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162761E+02         XY=  0.31220905E-03         XZ=  0.23333669E-01
                YY= -0.10161239E+02         YZ=  0.23057854E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70344544E-01 Y=  0.10020867E-10 Z= -0.17612818E-07   Total=     0.07034454
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25741537E+01         XY=  0.66465962E+00         XZ=  0.58854430E+00
                YY=  0.12448342E+01         YZ= -0.16633959E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5473712E-02 Y=  0.1698236E-08 Z=  0.4611707E-02  Total=      0.0071575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108648E+02         XY=  0.27368559E-01         XZ=  0.47297380E-01
                YY= -0.10161239E+02         YZ=  0.23058535E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56682939E-01 Y=  0.13467836E-10 Z=  0.10577524E-06   Total=     0.05668294
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23159852E+01         XY=  0.53557615E+00         XZ=  0.47425037E+00
                YY=  0.12448340E+01         YZ=  0.99953755E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8802372E-02 Y=  0.1700765E-08 Z=  0.4611925E-02  Total=      0.0099374
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075361E+02         XY=  0.44011860E-01         XZ=  0.62039248E-01
                YY= -0.10161239E+02         YZ=  0.23059625E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21455019E-01 Y=  0.12387312E-10 Z=  0.63848151E-07   Total=     0.02145502
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16502737E+01         XY=  0.20272055E+00         XZ=  0.17951591E+00
                YY=  0.12448332E+01         YZ=  0.60337488E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8781958E-02 Y=  0.1702715E-08 Z=  0.4611923E-02  Total=      0.0099193
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075566E+02         XY=  0.43909786E-01         XZ=  0.61949297E-01
                YY= -0.10161239E+02         YZ=  0.23059613E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21935961E-01 Y=  0.71909447E-11 Z= -0.83896935E-07   Total=     0.02193596
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83030434E+00         XY= -0.20726480E+00         XZ= -0.18352027E+00
                YY=  0.12448329E+01         YZ= -0.79265740E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5420236E-02 Y=  0.1703654E-08 Z=  0.4611702E-02  Total=      0.0071167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109183E+02         XY=  0.27101176E-01         XZ=  0.47061758E-01
                YY= -0.10161239E+02         YZ=  0.23058506E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56980886E-01 Y=  0.38848426E-13 Z= -0.13237188E-06   Total=     0.05698089
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16805239E+00         XY= -0.53839135E+00         XZ= -0.47673107E+00
                YY=  0.12448336E+01         YZ= -0.12507392E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3746497E-05 Y=  0.1704882E-08 Z=  0.4611565E-02  Total=      0.0046116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163422E+02         XY= -0.18734439E-04         XZ=  0.23042053E-01
                YY= -0.10161239E+02         YZ=  0.23057821E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70346062E-01 Y= -0.62055794E-11 Z= -0.14055679E-07   Total=     0.07034606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84513485E-01         XY= -0.66467396E+00         XZ= -0.58855678E+00
                YY=  0.12448342E+01         YZ= -0.13286533E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5426301E-02 Y=  0.1712251E-08 Z=  0.4611699E-02  Total=      0.0071213
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217648E+02         XY= -0.27131509E-01         XZ= -0.97024914E-03
                YY= -0.10161239E+02         YZ=  0.23058492E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56946345E-01 Y= -0.92655582E-11 Z=  0.10764625E-06   Total=     0.05694635
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16870290E+00         XY= -0.53806498E+00         XZ= -0.47645138E+00
                YY=  0.12448340E+01         YZ=  0.10170257E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8784281E-02 Y=  0.1713912E-08 Z=  0.4611918E-02  Total=      0.0099214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251228E+02         XY= -0.43921408E-01         XZ= -0.15839729E-01
                YY= -0.10161239E+02         YZ=  0.23059587E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21879927E-01 Y= -0.83960371E-11 Z=  0.63606964E-07   Total=     0.02187993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83136185E+00         XY= -0.20673535E+00         XZ= -0.18306879E+00
                YY=  0.12448332E+01         YZ=  0.60092221E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8800051E-02 Y=  0.1714851E-08 Z=  0.4611918E-02  Total=      0.0099353
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251386E+02         XY= -0.44000259E-01         XZ= -0.15909985E-01
                YY= -0.10161239E+02         YZ=  0.23059588E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21511376E-01 Y= -0.45828007E-11 Z= -0.87532543E-07   Total=     0.02151138
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16513400E+01         XY=  0.20325305E+00         XZ=  0.17996726E+00
                YY=  0.12448329E+01         YZ= -0.82710708E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5467599E-02 Y=  0.1714924E-08 Z=  0.4611697E-02  Total=      0.0071528
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218061E+02         XY= -0.27337996E-01         XZ= -0.11542341E-02
                YY= -0.10161239E+02         YZ=  0.23058484E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56718323E-01 Y=  0.46651285E-13 Z= -0.13944274E-06   Total=     0.05671832
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23166561E+01         XY=  0.53591049E+00         XZ=  0.47453249E+00
                YY=  0.12448336E+01         YZ= -0.13175485E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5482143E-04 Y=  0.1715140E-08 Z=  0.4611557E-02  Total=      0.0046119
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163933E+02         XY= -0.27410909E-03         XZ=  0.22814495E-01
                YY= -0.10161239E+02         YZ=  0.23057784E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70345576E-01 Y=  0.32778514E-11 Z= -0.21698260E-07   Total=     0.07034558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25741732E+01         XY=  0.66466937E+00         XZ=  0.58855281E+00
                YY=  0.12448342E+01         YZ= -0.20499727E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5378870E-02 Y=  0.1721064E-08 Z=  0.4611689E-02  Total=      0.0070852
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109596E+02         XY=  0.26894350E-01         XZ=  0.46877456E-01
                YY= -0.10161239E+02         YZ=  0.23058441E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57208282E-01 Y=  0.38162213E-11 Z=  0.10355555E-06   Total=     0.05720828
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23259127E+01         XY=  0.54053993E+00         XZ=  0.47864501E+00
                YY=  0.12448340E+01         YZ=  0.97848426E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8766105E-02 Y=  0.1721136E-08 Z=  0.4611908E-02  Total=      0.0099053
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075724E+02         XY=  0.43830524E-01         XZ=  0.61878679E-01
                YY= -0.10161239E+02         YZ=  0.23059540E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22304791E-01 Y=  0.17861984E-11 Z=  0.64933930E-07   Total=     0.02230479
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16663320E+01         XY=  0.21074973E+00         XZ=  0.18662455E+00
                YY=  0.12448332E+01         YZ=  0.61354582E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8818132E-02 Y=  0.1722220E-08 Z=  0.4611912E-02  Total=      0.0099513
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075204E+02         XY=  0.44090656E-01         XZ=  0.62109499E-01
                YY= -0.10161239E+02         YZ=  0.23059557E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21085073E-01 Y= -0.14718956E-11 Z= -0.82503525E-07   Total=     0.02108507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84638376E+00         XY= -0.19922507E+00         XZ= -0.17640233E+00
                YY=  0.12448329E+01         YZ= -0.77956345E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5515155E-02 Y=  0.1722798E-08 Z=  0.4611692E-02  Total=      0.0071892
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108233E+02         XY=  0.27575775E-01         XZ=  0.47482070E-01
                YY= -0.10161239E+02         YZ=  0.23058459E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56452625E-01 Y= -0.41586616E-11 Z= -0.13376346E-06   Total=     0.05645263
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17803507E+00         XY= -0.53340001E+00         XZ= -0.47231213E+00
                YY=  0.12448336E+01         YZ= -0.12639220E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1138719E-03 Y=  0.1723665E-08 Z=  0.4611550E-02  Total=      0.0046130
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162246E+02         XY=  0.56935729E-03         XZ=  0.23562834E-01
                YY= -0.10161239E+02         YZ=  0.23057750E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70341435E-01 Y= -0.49250481E-11 Z= -0.17002346E-07   Total=     0.07034144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84426019E-01         XY= -0.66463024E+00         XZ= -0.58851832E+00
                YY=  0.12448342E+01         YZ= -0.16069554E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5330670E-02 Y=  0.1731250E-08 Z=  0.4611680E-02  Total=      0.0070487
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216692E+02         XY= -0.26653354E-01         XZ= -0.54685646E-03
                YY= -0.10161239E+02         YZ=  0.23058398E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57467150E-01 Y= -0.34849842E-11 Z=  0.10702433E-06   Total=     0.05746715
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15886114E+00         XY= -0.54298588E+00         XZ= -0.48080837E+00
                YY=  0.12448340E+01         YZ=  0.10111990E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8746962E-02 Y=  0.1732550E-08 Z=  0.4611901E-02  Total=      0.0098883
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250855E+02         XY= -0.43734810E-01         XZ= -0.15674523E-01
                YY= -0.10161239E+02         YZ=  0.23059502E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22728065E-01 Y= -0.65517522E-12 Z=  0.66352193E-07   Total=     0.02272807
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81533435E+00         XY= -0.21474909E+00         XZ= -0.19016398E+00
                YY=  0.12448332E+01         YZ=  0.62692685E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8835186E-02 Y=  0.1733273E-08 Z=  0.4611907E-02  Total=      0.0099665
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251737E+02         XY= -0.44175932E-01         XZ= -0.16065561E-01
                YY= -0.10161239E+02         YZ=  0.23059533E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20658543E-01 Y=  0.21563736E-11 Z= -0.84906180E-07   Total=     0.02065854
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16352238E+01         XY=  0.19519494E+00         XZ=  0.17283289E+00
                YY=  0.12448329E+01         YZ= -0.80223403E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5561768E-02 Y=  0.1733201E-08 Z=  0.4611688E-02  Total=      0.0072250
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219003E+02         XY= -0.27808841E-01         XZ= -0.15711888E-02
                YY= -0.10161239E+02         YZ=  0.23058439E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56185228E-01 Y=  0.37218229E-11 Z= -0.14040234E-06   Total=     0.05618523
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23065820E+01         XY=  0.53087347E+00         XZ=  0.47007296E+00
                YY=  0.12448336E+01         YZ= -0.13265837E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1721471E-03 Y=  0.1733995E-08 Z=  0.4611544E-02  Total=      0.0046148
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165106E+02         XY= -0.86073767E-03         XZ=  0.22294990E-01
                YY= -0.10161239E+02         YZ=  0.23057716E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70335020E-01 Y=  0.36150886E-11 Z= -0.25058288E-07   Total=     0.07033502
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25739737E+01         XY=  0.66456963E+00         XZ=  0.58846466E+00
                YY=  0.12448342E+01         YZ= -0.23674119E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5283075E-02 Y=  0.1740497E-08 Z=  0.4611670E-02  Total=      0.0070127
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110554E+02         XY=  0.26415371E-01         XZ=  0.46453262E-01
                YY= -0.10161239E+02         YZ=  0.23058349E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57724274E-01 Y=  0.23722186E-11 Z=  0.10202301E-06   Total=     0.05772427
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23356636E+01         XY=  0.54541534E+00         XZ=  0.48296174E+00
                YY=  0.12448340E+01         YZ=  0.96399264E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8728334E-02 Y=  0.1740280E-08 Z=  0.4611892E-02  Total=      0.0098718
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076102E+02         XY=  0.43641667E-01         XZ=  0.61711418E-01
                YY= -0.10161239E+02         YZ=  0.23059456E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23151011E-01 Y=  0.11269769E-11 Z=  0.66837163E-07   Total=     0.02315101
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16823232E+01         XY=  0.21874535E+00         XZ=  0.19370381E+00
                YY=  0.12448332E+01         YZ=  0.63152429E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8852802E-02 Y=  0.1740641E-08 Z=  0.4611901E-02  Total=      0.0099821
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074857E+02         XY=  0.44264010E-01         XZ=  0.62263027E-01
                YY= -0.10161239E+02         YZ=  0.23059502E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20230592E-01 Y=  0.93279088E-12 Z= -0.80167288E-07   Total=     0.02023059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86253110E+00         XY= -0.19115139E+00         XZ= -0.16925407E+00
                YY=  0.12448329E+01         YZ= -0.75746793E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5609122E-02 Y=  0.1740569E-08 Z=  0.4611683E-02  Total=      0.0072615
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107294E+02         XY=  0.28045610E-01         XZ=  0.47898156E-01
                YY= -0.10161239E+02         YZ=  0.23058415E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55915013E-01 Y=  0.21441527E-11 Z= -0.13427604E-06   Total=     0.05591501
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18819446E+00         XY= -0.52832031E+00         XZ= -0.46781483E+00
                YY=  0.12448336E+01         YZ= -0.12687112E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2314251E-03 Y=  0.1740858E-08 Z=  0.4611537E-02  Total=      0.0046173
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161071E+02         XY=  0.11571235E-02         XZ=  0.24083322E-01
                YY= -0.10161239E+02         YZ=  0.23057684E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70325293E-01 Y=  0.41922292E-11 Z= -0.19304879E-07   Total=     0.07032529
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84120937E-01         XY= -0.66447772E+00         XZ= -0.58838358E+00
                YY=  0.12448342E+01         YZ= -0.18237392E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5234221E-02 Y=  0.1749744E-08 Z=  0.4611662E-02  Total=      0.0069760
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215727E+02         XY= -0.26171106E-01         XZ= -0.11984808E-03
                YY= -0.10161239E+02         YZ=  0.23058308E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57978700E-01 Y=  0.58807637E-11 Z=  0.10684525E-06   Total=     0.05797870
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14919429E+00         XY= -0.54781932E+00         XZ= -0.48508817E+00
                YY=  0.12448340E+01         YZ=  0.10095863E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8708284E-02 Y=  0.1751694E-08 Z=  0.4611885E-02  Total=      0.0098541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250468E+02         XY= -0.43541421E-01         XZ= -0.15503324E-01
                YY= -0.10161239E+02         YZ=  0.23059421E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23572771E-01 Y=  0.60510003E-11 Z=  0.69534506E-07   Total=     0.02357277
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79937172E+00         XY= -0.22273041E+00         XZ= -0.19723086E+00
                YY=  0.12448332E+01         YZ=  0.65705224E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8868976E-02 Y=  0.1752417E-08 Z=  0.4611897E-02  Total=      0.0099964
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252075E+02         XY= -0.44344880E-01         XZ= -0.16215221E-01
                YY= -0.10161239E+02         YZ=  0.23059481E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19801973E-01 Y=  0.42650646E-11 Z= -0.81702447E-07   Total=     0.01980197
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16190369E+01         XY=  0.18710153E+00         XZ=  0.16566678E+00
                YY=  0.12448329E+01         YZ= -0.77194485E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5655157E-02 Y=  0.1751550E-08 Z=  0.4611680E-02  Total=      0.0072971
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219936E+02         XY= -0.28275785E-01         XZ= -0.19847447E-02
                YY= -0.10161239E+02         YZ=  0.23058398E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55642618E-01 Y=  0.11355492E-11 Z= -0.14068070E-06   Total=     0.05564262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22963282E+01         XY=  0.52574654E+00         XZ=  0.46553335E+00
                YY=  0.12448336E+01         YZ= -0.13292348E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2895964E-03 Y=  0.1750394E-08 Z=  0.4611531E-02  Total=      0.0046206
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166281E+02         XY= -0.14479841E-02         XZ=  0.21774865E-01
                YY= -0.10161239E+02         YZ=  0.23057652E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70312762E-01 Y= -0.18983936E-11 Z= -0.27780237E-07   Total=     0.07031276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25735532E+01         XY=  0.66435932E+00         XZ=  0.58827820E+00
                YY=  0.12448342E+01         YZ= -0.26250529E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5186254E-02 Y=  0.1756534E-08 Z=  0.4611653E-02  Total=      0.0069401
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111522E+02         XY=  0.25931266E-01         XZ=  0.46024445E-01
                YY= -0.10161239E+02         YZ=  0.23058262E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58230804E-01 Y= -0.32618801E-11 Z=  0.10097783E-06   Total=     0.05823080
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23452357E+01         XY=  0.55020136E+00         XZ=  0.48719906E+00
                YY=  0.12448340E+01         YZ=  0.95407081E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8688979E-02 Y=  0.1756968E-08 Z=  0.4611876E-02  Total=      0.0098371
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076495E+02         XY=  0.43444892E-01         XZ=  0.61537055E-01
                YY= -0.10161239E+02         YZ=  0.23059377E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23993590E-01 Y= -0.20675368E-11 Z=  0.69056811E-07   Total=     0.02399359
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16982457E+01         XY=  0.22670657E+00         XZ=  0.20075251E+00
                YY=  0.12448332E+01         YZ=  0.65247107E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8885885E-02 Y=  0.1757762E-08 Z=  0.4611891E-02  Total=      0.0100114
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074526E+02         XY=  0.44429423E-01         XZ=  0.62409433E-01
                YY= -0.10161239E+02         YZ=  0.23059452E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19372560E-01 Y=  0.13515377E-11 Z= -0.77669875E-07   Total=     0.01937256
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87874551E+00         XY= -0.18304417E+00         XZ= -0.16207602E+00
                YY=  0.12448329E+01         YZ= -0.73386642E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5702052E-02 Y=  0.1757474E-08 Z=  0.4611676E-02  Total=      0.0073335
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106364E+02         XY=  0.28510256E-01         XZ=  0.48309566E-01
                YY= -0.10161239E+02         YZ=  0.23058376E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55368009E-01 Y=  0.54960044E-11 Z= -0.13473927E-06   Total=     0.05536801
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19853134E+00         XY= -0.52315187E+00         XZ= -0.46323870E+00
                YY=  0.12448335E+01         YZ= -0.12730592E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3488371E-03 Y=  0.1758846E-08 Z=  0.4611525E-02  Total=      0.0046247
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159896E+02         XY=  0.17441834E-02         XZ=  0.24603120E-01
                YY= -0.10161239E+02         YZ=  0.23057623E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70297464E-01 Y=  0.83569696E-11 Z= -0.21525189E-07   Total=     0.07029746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83595022E-01         XY= -0.66421477E+00         XZ= -0.58815068E+00
                YY=  0.12448342E+01         YZ= -0.20331711E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5137008E-02 Y=  0.1766431E-08 Z=  0.4611645E-02  Total=      0.0069033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214755E+02         XY= -0.25685040E-01         XZ=  0.31049546E-03
                YY= -0.10161239E+02         YZ=  0.23058223E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58480664E-01 Y=  0.83864195E-11 Z=  0.10704209E-06   Total=     0.05848066
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13970855E+00         XY= -0.55256220E+00         XZ= -0.48928731E+00
                YY=  0.12448340E+01         YZ=  0.10114681E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8668268E-02 Y=  0.1767587E-08 Z=  0.4611869E-02  Total=      0.0098188
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250068E+02         XY= -0.43341344E-01         XZ= -0.15326228E-01
                YY= -0.10161239E+02         YZ=  0.23059343E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24413568E-01 Y=  0.53161542E-11 Z=  0.73610912E-07   Total=     0.02441357
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78348294E+00         XY= -0.23067479E+00         XZ= -0.20426451E+00
                YY=  0.12448332E+01         YZ=  0.69556365E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8901397E-02 Y=  0.1768888E-08 Z=  0.4611887E-02  Total=      0.0100252
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252399E+02         XY= -0.44506987E-01         XZ= -0.16358825E-01
                YY= -0.10161239E+02         YZ=  0.23059434E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18942233E-01 Y=  0.40717041E-12 Z= -0.77098071E-07   Total=     0.01894223
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16027901E+01         XY=  0.17897816E+00         XZ=  0.15847466E+00
                YY=  0.12448329E+01         YZ= -0.72847077E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5747694E-02 Y=  0.1768671E-08 Z=  0.4611673E-02  Total=      0.0073691
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220862E+02         XY= -0.28738472E-01         XZ= -0.23945144E-02
                YY= -0.10161239E+02         YZ=  0.23058362E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55091041E-01 Y= -0.40318073E-11 Z= -0.13931725E-06   Total=     0.05509104
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22859049E+01         XY=  0.52053490E+00         XZ=  0.46091918E+00
                YY=  0.12448335E+01         YZ= -0.13163938E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4070573E-03 Y=  0.1767298E-08 Z=  0.4611519E-02  Total=      0.0046295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167455E+02         XY= -0.20352887E-02         XZ=  0.21254722E-01
                YY= -0.10161239E+02         YZ=  0.23057595E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70279211E-01 Y= -0.56725069E-11 Z= -0.28932755E-07   Total=     0.07027921
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25729191E+01         XY=  0.66404231E+00         XZ=  0.58799758E+00
                YY=  0.12448342E+01         YZ= -0.27342507E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5088544E-02 Y=  0.1772138E-08 Z=  0.4611637E-02  Total=      0.0068673
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112499E+02         XY=  0.25442719E-01         XZ=  0.45591735E-01
                YY= -0.10161239E+02         YZ=  0.23058181E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58728034E-01 Y= -0.32781895E-11 Z=  0.10127729E-06   Total=     0.05872803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23546320E+01         XY=  0.55489951E+00         XZ=  0.49135870E+00
                YY=  0.12448340E+01         YZ=  0.95690172E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8648179E-02 Y=  0.1772066E-08 Z=  0.4611861E-02  Total=      0.0098010
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076903E+02         XY=  0.43240894E-01         XZ=  0.61356334E-01
                YY= -0.10161239E+02         YZ=  0.23059303E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24832385E-01 Y=  0.26289268E-11 Z=  0.72403794E-07   Total=     0.02483239
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17140966E+01         XY=  0.23463204E+00         XZ=  0.20776948E+00
                YY=  0.12448332E+01         YZ=  0.68413629E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8917497E-02 Y=  0.1773005E-08 Z=  0.4611882E-02  Total=      0.0100395
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074210E+02         XY=  0.44587482E-01         XZ=  0.62549356E-01
                YY= -0.10161239E+02         YZ=  0.23059408E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18511401E-01 Y=  0.98877171E-11 Z= -0.74255564E-07   Total=     0.01851140
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89501901E+00         XY= -0.17490739E+00         XZ= -0.15487211E+00
                YY=  0.12448329E+01         YZ= -0.70153287E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5794019E-02 Y=  0.1775100E-08 Z=  0.4611669E-02  Total=      0.0074053
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105445E+02         XY=  0.28970094E-01         XZ=  0.48716728E-01
                YY= -0.10161239E+02         YZ=  0.23058343E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54812224E-01 Y=  0.15593350E-10 Z= -0.13457783E-06   Total=     0.05481222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20903413E+00         XY= -0.51790046E+00         XZ= -0.45858963E+00
                YY=  0.12448335E+01         YZ= -0.12714476E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4661337E-03 Y=  0.1778568E-08 Z=  0.4611514E-02  Total=      0.0046350
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158723E+02         XY=  0.23306667E-02         XZ=  0.25122391E-01
                YY= -0.10161239E+02         YZ=  0.23057568E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70258618E-01 Y=  0.17387086E-10 Z= -0.23496157E-07   Total=     0.07025862
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82860948E-01         XY= -0.66384774E+00         XZ= -0.58782629E+00
                YY=  0.12448342E+01         YZ= -0.22186263E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5039054E-02 Y=  0.1788031E-08 Z=  0.4611629E-02  Total=      0.0068308
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213775E+02         XY= -0.25195274E-01         XZ=  0.74406622E-03
                YY= -0.10161239E+02         YZ=  0.23058144E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58973641E-01 Y=  0.14558264E-10 Z=  0.10714769E-06   Total=     0.05897364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13039263E+00         XY= -0.55722016E+00         XZ= -0.49341197E+00
                YY=  0.12448340E+01         YZ=  0.10125194E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8626979E-02 Y=  0.1789259E-08 Z=  0.4611855E-02  Total=      0.0097823
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249655E+02         XY= -0.43134898E-01         XZ= -0.15143572E-01
                YY= -0.10161239E+02         YZ=  0.23059271E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25250889E-01 Y=  0.84386051E-11 Z=  0.77383945E-07   Total=     0.02525089
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76765982E+00         XY= -0.23858633E+00         XZ= -0.21126974E+00
                YY=  0.12448332E+01         YZ=  0.73124179E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8932539E-02 Y=  0.1788537E-08 Z=  0.4611879E-02  Total=      0.0100528
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252710E+02         XY= -0.44662696E-01         XZ= -0.16496870E-01
                YY= -0.10161240E+02         YZ=  0.23059391E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18079087E-01 Y=  0.18765116E-11 Z= -0.72919172E-07   Total=     0.01807909
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15864790E+01         XY=  0.17082262E+00         XZ=  0.15125354E+00
                YY=  0.12448329E+01         YZ= -0.68897168E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5839479E-02 Y=  0.1787887E-08 Z=  0.4611667E-02  Total=      0.0074409
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221780E+02         XY= -0.29197399E-01         XZ= -0.28010768E-02
                YY= -0.10161239E+02         YZ=  0.23058332E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54530443E-01 Y= -0.20035909E-11 Z= -0.13850384E-06   Total=     0.05453044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22753111E+01         XY=  0.51523802E+00         XZ=  0.45622927E+00
                YY=  0.12448335E+01         YZ= -0.13086894E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5246269E-03 Y=  0.1787164E-08 Z=  0.4611509E-02  Total=      0.0046413
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168631E+02         XY= -0.26231365E-02         XZ=  0.20733969E-01
                YY= -0.10161239E+02         YZ=  0.23057544E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70234444E-01 Y= -0.12153973E-11 Z= -0.30758210E-07   Total=     0.07023444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25720732E+01         XY=  0.66361932E+00         XZ=  0.58762315E+00
                YY=  0.12448342E+01         YZ= -0.29063414E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4989860E-02 Y=  0.1791427E-08 Z=  0.4611621E-02  Total=      0.0067945
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113486E+02         XY=  0.24949298E-01         XZ=  0.45154586E-01
                YY= -0.10161239E+02         YZ=  0.23058104E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59216133E-01 Y=  0.41447107E-11 Z=  0.10089342E-06   Total=     0.05921613
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23638557E+01         XY=  0.55951137E+00         XZ=  0.49544226E+00
                YY=  0.12448340E+01         YZ=  0.95333852E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8605865E-02 Y=  0.1791210E-08 Z=  0.4611847E-02  Total=      0.0097637
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077326E+02         XY=  0.43029322E-01         XZ=  0.61168802E-01
                YY= -0.10161240E+02         YZ=  0.23059232E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25667648E-01 Y=  0.11867132E-10 Z=  0.75241385E-07   Total=     0.02566765
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17298807E+01         XY=  0.24252412E+00         XZ=  0.21475744E+00
                YY=  0.12448332E+01         YZ=  0.71102676E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8947590E-02 Y=  0.1793233E-08 Z=  0.4611874E-02  Total=      0.0100662
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073909E+02         XY=  0.44737949E-01         XZ=  0.62682480E-01
                YY= -0.10161240E+02         YZ=  0.23059367E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17646763E-01 Y=  0.18553140E-10 Z= -0.71058880E-07   Total=     0.01764676
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91135825E+00         XY= -0.16673774E+00         XZ= -0.14763839E+00
                YY=  0.12448329E+01         YZ= -0.67125410E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5885010E-02 Y=  0.1795689E-08 Z=  0.4611663E-02  Total=      0.0074767
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104535E+02         XY=  0.29425048E-01         XZ=  0.49119522E-01
                YY= -0.10161240E+02         YZ=  0.23058314E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54247170E-01 Y=  0.21102239E-10 Z= -0.13434572E-06   Total=     0.05424717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21971205E+00         XY= -0.51256148E+00         XZ= -0.45386227E+00
                YY=  0.12448335E+01         YZ= -0.12692064E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5833426E-03 Y=  0.1798434E-08 Z=  0.4611504E-02  Total=      0.0046483
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157551E+02         XY=  0.29167109E-02         XZ=  0.25641261E-01
                YY= -0.10161239E+02         YZ=  0.23057518E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70208120E-01 Y=  0.18104146E-10 Z= -0.25141168E-07   Total=     0.07020812
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81906666E-01         XY= -0.66337059E+00         XZ= -0.58740371E+00
                YY=  0.12448341E+01         YZ= -0.23739770E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4940281E-02 Y=  0.1806019E-08 Z=  0.4611614E-02  Total=      0.0067582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212788E+02         XY= -0.24701405E-01         XZ=  0.11812870E-02
                YY= -0.10161240E+02         YZ=  0.23058068E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59456882E-01 Y=  0.10506112E-10 Z=  0.10786288E-06   Total=     0.05945688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12126071E+00         XY= -0.56178612E+00         XZ= -0.49745463E+00
                YY=  0.12448340E+01         YZ=  0.10192450E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8584277E-02 Y=  0.1806742E-08 Z=  0.4611841E-02  Total=      0.0097447
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249228E+02         XY= -0.42921386E-01         XZ= -0.14954625E-01
                YY= -0.10161240E+02         YZ=  0.23059202E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26083970E-01 Y=  0.12419966E-11 Z=  0.82078210E-07   Total=     0.02608397
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75191684E+00         XY= -0.24645780E+00         XZ= -0.21823915E+00
                YY=  0.12448332E+01         YZ=  0.77553767E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8962208E-02 Y=  0.1807825E-08 Z=  0.4611871E-02  Total=      0.0100792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253007E+02         XY= -0.44811040E-01         XZ= -0.16628349E-01
                YY= -0.10161240E+02         YZ=  0.23059353E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17213174E-01 Y= -0.60288322E-11 Z= -0.67626672E-07   Total=     0.01721317
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15701155E+01         XY=  0.16264092E+00         XZ=  0.14400940E+00
                YY=  0.12448328E+01         YZ= -0.63902931E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5930281E-02 Y=  0.1808114E-08 Z=  0.4611662E-02  Total=      0.0075124
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222688E+02         XY= -0.29651407E-01         XZ= -0.32032374E-02
                YY= -0.10161240E+02         YZ=  0.23058306E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53961189E-01 Y= -0.85196136E-11 Z= -0.13666970E-06   Total=     0.05396119
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22645537E+01         XY=  0.50985935E+00         XZ=  0.45146685E+00
                YY=  0.12448334E+01         YZ= -0.12914121E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6420614E-03 Y=  0.1807031E-08 Z=  0.4611500E-02  Total=      0.0046560
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169805E+02         XY= -0.32103088E-02         XZ=  0.20213854E-01
                YY= -0.10161240E+02         YZ=  0.23057498E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70178455E-01 Y= -0.55426720E-11 Z= -0.31924977E-07   Total=     0.07017845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25710151E+01         XY=  0.66309030E+00         XZ=  0.58715456E+00
                YY=  0.12448341E+01         YZ= -0.30169274E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4890426E-02 Y=  0.1811654E-08 Z=  0.4611607E-02  Total=      0.0067218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114481E+02         XY=  0.24452129E-01         XZ=  0.44714145E-01
                YY= -0.10161240E+02         YZ=  0.23058033E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59694709E-01 Y=  0.11876546E-11 Z=  0.10075061E-06   Total=     0.05969471
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23728994E+01         XY=  0.56403326E+00         XZ=  0.49944573E+00
                YY=  0.12448340E+01         YZ=  0.95196659E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8562216E-02 Y=  0.1811221E-08 Z=  0.4611834E-02  Total=      0.0097253
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077763E+02         XY=  0.42811077E-01         XZ=  0.60975368E-01
                YY= -0.10161240E+02         YZ=  0.23059167E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26498684E-01 Y=  0.83155434E-11 Z=  0.78052037E-07   Total=     0.02649868
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17455850E+01         XY=  0.25037628E+00         XZ=  0.22170952E+00
                YY=  0.12448332E+01         YZ=  0.73755631E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8976283E-02 Y=  0.1811510E-08 Z=  0.4611866E-02  Total=      0.0100917
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073622E+02         XY=  0.44881414E-01         XZ=  0.62809387E-01
                YY= -0.10161240E+02         YZ=  0.23059330E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16779483E-01 Y=  0.12333926E-10 Z= -0.67996005E-07   Total=     0.01677948
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92774739E+00         XY= -0.15854314E+00         XZ= -0.14038316E+00
                YY=  0.12448328E+01         YZ= -0.64236358E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5975076E-02 Y=  0.1812665E-08 Z=  0.4611658E-02  Total=      0.0075478
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103634E+02         XY=  0.29875379E-01         XZ=  0.49518182E-01
                YY= -0.10161240E+02         YZ=  0.23058290E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53673649E-01 Y=  0.11141340E-10 Z= -0.13432774E-06   Total=     0.05367365
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23054998E+00         XY= -0.50714249E+00         XZ= -0.44906466E+00
                YY=  0.12448334E+01         YZ= -0.12691172E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7004603E-03 Y=  0.1814183E-08 Z=  0.4611495E-02  Total=      0.0046644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156380E+02         XY=  0.35022994E-02         XZ=  0.26159665E-01
                YY= -0.10161240E+02         YZ=  0.23057473E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70146579E-01 Y=  0.49738478E-11 Z= -0.27138266E-07   Total=     0.07014658
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80743729E-01         XY= -0.66278912E+00         XZ= -0.58688928E+00
                YY=  0.12448341E+01         YZ= -0.25637479E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4840725E-02 Y=  0.1820612E-08 Z=  0.4611600E-02  Total=      0.0066858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211792E+02         XY= -0.24203628E-01         XZ=  0.16218842E-02
                YY= -0.10161240E+02         YZ=  0.23057998E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59930729E-01 Y= -0.37022518E-11 Z=  0.10808567E-06   Total=     0.05993073
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11230629E+00         XY= -0.56626332E+00         XZ= -0.50141911E+00
                YY=  0.12448340E+01         YZ=  0.10212339E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8540214E-02 Y=  0.1820323E-08 Z=  0.4611828E-02  Total=      0.0097059
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248787E+02         XY= -0.42701073E-01         XZ= -0.14759753E-01
                YY= -0.10161240E+02         YZ=  0.23059138E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26912891E-01 Y= -0.11283535E-10 Z=  0.86227174E-07   Total=     0.02691289
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73625245E+00         XY= -0.25428997E+00         XZ= -0.22517397E+00
                YY=  0.12448332E+01         YZ=  0.81463786E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8990452E-02 Y=  0.1819601E-08 Z=  0.4611864E-02  Total=      0.0101043
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253289E+02         XY= -0.44952261E-01         XZ= -0.16753621E-01
                YY= -0.10161240E+02         YZ=  0.23059318E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16344600E-01 Y= -0.14616648E-10 Z= -0.62843749E-07   Total=     0.01634460
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15537018E+01         XY=  0.15443409E+00         XZ=  0.13674305E+00
                YY=  0.12448328E+01         YZ= -0.59390578E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6020131E-02 Y=  0.1819023E-08 Z=  0.4611657E-02  Total=      0.0075835
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223586E+02         XY= -0.30100658E-01         XZ= -0.36012813E-02
                YY= -0.10161240E+02         YZ=  0.23058285E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53383479E-01 Y= -0.12371909E-10 Z= -0.13527736E-06   Total=     0.05338348
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22536365E+01         XY=  0.50440077E+00         XZ=  0.44663400E+00
                YY=  0.12448334E+01         YZ= -0.12782850E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7593733E-03 Y=  0.1818156E-08 Z=  0.4611492E-02  Total=      0.0046736
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170978E+02         XY= -0.37968685E-02         XZ=  0.19694203E-01
                YY= -0.10161240E+02         YZ=  0.23057456E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70111457E-01 Y= -0.55971285E-11 Z= -0.33437374E-07   Total=     0.07011146
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25697490E+01         XY=  0.66245726E+00         XZ=  0.58659444E+00
                YY=  0.12448341E+01         YZ= -0.31597938E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4790250E-02 Y=  0.1822924E-08 Z=  0.4611594E-02  Total=      0.0066493
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115482E+02         XY=  0.23951247E-01         XZ=  0.44270361E-01
                YY= -0.10161240E+02         YZ=  0.23057966E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60163962E-01 Y=  0.27819648E-11 Z=  0.10043031E-06   Total=     0.06016396
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23817670E+01         XY=  0.56846706E+00         XZ=  0.50337195E+00
                YY=  0.12448340E+01         YZ=  0.94895754E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8517257E-02 Y=  0.1821912E-08 Z=  0.4611821E-02  Total=      0.0096857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078212E+02         XY=  0.42586283E-01         XZ=  0.60776111E-01
                YY= -0.10161240E+02         YZ=  0.23059105E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27325698E-01 Y=  0.92768994E-11 Z=  0.80879808E-07   Total=     0.02732570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17612132E+01         XY=  0.25819042E+00         XZ=  0.22862877E+00
                YY=  0.12448332E+01         YZ=  0.76428690E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9003620E-02 Y=  0.1821551E-08 Z=  0.4611860E-02  Total=      0.0101160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073349E+02         XY=  0.45018099E-01         XZ=  0.62930301E-01
                YY= -0.10161240E+02         YZ=  0.23059297E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15909312E-01 Y=  0.11369707E-10 Z= -0.64887437E-07   Total=     0.01590931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94419117E+00         XY= -0.15032122E+00         XZ= -0.13310296E+00
                YY=  0.12448328E+01         YZ= -0.61299604E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6064286E-02 Y=  0.1822490E-08 Z=  0.4611655E-02  Total=      0.0076186
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102742E+02         XY=  0.30321427E-01         XZ=  0.49913093E-01
                YY= -0.10161240E+02         YZ=  0.23058271E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53091343E-01 Y=  0.85798664E-11 Z= -0.13458502E-06   Total=     0.05309134
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24155394E+00         XY= -0.50164049E+00         XZ= -0.44419291E+00
                YY=  0.12448334E+01         YZ= -0.12715658E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8175840E-03 Y=  0.1823791E-08 Z=  0.4611487E-02  Total=      0.0046834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155209E+02         XY=  0.40879182E-02         XZ=  0.26678162E-01
                YY= -0.10161240E+02         YZ=  0.23057433E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70073635E-01 Y=  0.26036913E-11 Z= -0.30042646E-07   Total=     0.07007364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.79365280E-01         XY= -0.66209990E+00         XZ= -0.58627904E+00
                YY=  0.12448341E+01         YZ= -0.28383321E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4740262E-02 Y=  0.1830726E-08 Z=  0.4611587E-02  Total=      0.0066134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210787E+02         XY= -0.23701311E-01         XZ=  0.20665788E-02
                YY= -0.10161240E+02         YZ=  0.23057932E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60394856E-01 Y= -0.35105915E-11 Z=  0.10672063E-06   Total=     0.06039486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10353556E+00         XY= -0.57064869E+00         XZ= -0.50530216E+00
                YY=  0.12448340E+01         YZ=  0.10083416E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8494643E-02 Y=  0.1830364E-08 Z=  0.4611816E-02  Total=      0.0096658
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248331E+02         XY= -0.42473218E-01         XZ= -0.14558127E-01
                YY= -0.10161240E+02         YZ=  0.23059076E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27737480E-01 Y= -0.67592228E-11 Z=  0.88310440E-07   Total=     0.02773748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72066996E+00         XY= -0.26208120E+00         XZ= -0.23207272E+00
                YY=  0.12448332E+01         YZ=  0.83436353E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9017119E-02 Y=  0.1829425E-08 Z=  0.4611857E-02  Total=      0.0101281
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253556E+02         XY= -0.45085595E-01         XZ= -0.16871850E-01
                YY= -0.10161240E+02         YZ=  0.23059285E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15473280E-01 Y= -0.55143652E-11 Z= -0.60370412E-07   Total=     0.01547328
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15372362E+01         XY=  0.14620131E+00         XZ=  0.12945328E+00
                YY=  0.12448328E+01         YZ= -0.57045629E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6108897E-02 Y=  0.1829787E-08 Z=  0.4611654E-02  Total=      0.0076541
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224474E+02         XY= -0.30544488E-01         XZ= -0.39944865E-02
                YY= -0.10161240E+02         YZ=  0.23058266E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52796913E-01 Y= -0.19948648E-12 Z= -0.13634905E-06   Total=     0.05279691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22425520E+01         XY=  0.49885853E+00         XZ=  0.44172644E+00
                YY=  0.12448334E+01         YZ= -0.12883057E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8764749E-03 Y=  0.1830581E-08 Z=  0.4611484E-02  Total=      0.0046940
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172149E+02         XY= -0.43823763E-02         XZ=  0.19175492E-01
                YY= -0.10161240E+02         YZ=  0.23057417E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70032772E-01 Y=  0.69699627E-11 Z= -0.37589441E-07   Total=     0.07003277
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25682621E+01         XY=  0.66171380E+00         XZ=  0.58593581E+00
                YY=  0.12448341E+01         YZ= -0.35510241E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4689354E-02 Y=  0.1836216E-08 Z=  0.4611580E-02  Total=      0.0065770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116491E+02         XY=  0.23446768E-01         XZ=  0.43823372E-01
                YY= -0.10161240E+02         YZ=  0.23057899E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60623049E-01 Y=  0.13031002E-10 Z=  0.97304088E-07   Total=     0.06062305
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23904426E+01         XY=  0.57280480E+00         XZ=  0.50721241E+00
                YY=  0.12448340E+01         YZ=  0.91950768E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8470940E-02 Y=  0.1836649E-08 Z=  0.4611809E-02  Total=      0.0096450
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078675E+02         XY=  0.42354700E-01         XZ=  0.60570793E-01
                YY= -0.10161240E+02         YZ=  0.23059042E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28147855E-01 Y=  0.15608082E-10 Z=  0.80822320E-07   Total=     0.02814785
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17767497E+01         XY=  0.26595868E+00         XZ=  0.23550678E+00
                YY=  0.12448332E+01         YZ=  0.76379935E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9029489E-02 Y=  0.1838094E-08 Z=  0.4611853E-02  Total=      0.0101391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073090E+02         XY=  0.45147444E-01         XZ=  0.63044644E-01
                YY= -0.10161240E+02         YZ=  0.23059262E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15036900E-01 Y=  0.13929268E-10 Z= -0.64658002E-07   Total=     0.01503690
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96067734E+00         XY= -0.14207812E+00         XZ= -0.12580441E+00
                YY=  0.12448328E+01         YZ= -0.61080430E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6152483E-02 Y=  0.1839467E-08 Z=  0.4611650E-02  Total=      0.0076890
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101860E+02         XY=  0.30762415E-01         XZ=  0.50303439E-01
                YY= -0.10161240E+02         YZ=  0.23058249E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52500583E-01 Y=  0.90834202E-11 Z= -0.13768557E-06   Total=     0.05250058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25271768E+00         XY= -0.49605862E+00         XZ= -0.43925060E+00
                YY=  0.12448334E+01         YZ= -0.13008552E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9345420E-03 Y=  0.1840334E-08 Z=  0.4611478E-02  Total=      0.0047052
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154039E+02         XY=  0.46727083E-02         XZ=  0.27195843E-01
                YY= -0.10161240E+02         YZ=  0.23057390E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69989248E-01 Y=  0.34368725E-11 Z= -0.35715898E-07   Total=     0.06998925
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77770568E-01         XY= -0.66130256E+00         XZ= -0.58557300E+00
                YY=  0.12448341E+01         YZ= -0.33742864E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4639049E-02 Y=  0.1846257E-08 Z=  0.4611573E-02  Total=      0.0065412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209775E+02         XY= -0.23195248E-01         XZ=  0.25145185E-02
                YY= -0.10161240E+02         YZ=  0.23057862E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60848889E-01 Y= -0.48961697E-12 Z=  0.10278856E-06   Total=     0.06084889
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94955609E-01         XY= -0.57493868E+00         XZ= -0.50910043E+00
                YY=  0.12448340E+01         YZ=  0.97121597E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8447686E-02 Y=  0.1845318E-08 Z=  0.4611802E-02  Total=      0.0096246
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247862E+02         XY= -0.42238432E-01         XZ= -0.14350417E-01
                YY= -0.10161240E+02         YZ=  0.23059009E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28557121E-01 Y= -0.11520251E-11 Z=  0.88193679E-07   Total=     0.02855712
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70518098E+00         XY= -0.26982569E+00         XZ= -0.23892955E+00
                YY=  0.12448332E+01         YZ=  0.83330870E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9042279E-02 Y=  0.1844379E-08 Z=  0.4611850E-02  Total=      0.0101505
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253808E+02         XY= -0.45211395E-01         XZ= -0.16983433E-01
                YY= -0.10161240E+02         YZ=  0.23059246E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14599945E-01 Y=  0.13921179E-11 Z= -0.59673071E-07   Total=     0.01459994
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15207325E+01         XY=  0.13794948E+00         XZ=  0.12214733E+00
                YY=  0.12448328E+01         YZ= -0.56380835E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6196593E-02 Y=  0.1844235E-08 Z=  0.4611649E-02  Total=      0.0077243
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225351E+02         XY= -0.30982965E-01         XZ= -0.43829452E-02
                YY= -0.10161240E+02         YZ=  0.23058241E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52202222E-01 Y=  0.56214635E-11 Z= -0.13887250E-06   Total=     0.05220222
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22313139E+01         XY=  0.49323952E+00         XZ=  0.43675167E+00
                YY=  0.12448334E+01         YZ= -0.13120990E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9933263E-03 Y=  0.1843873E-08 Z=  0.4611475E-02  Total=      0.0047172
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173318E+02         XY= -0.49666333E-02         XZ=  0.18657931E-01
                YY= -0.10161240E+02         YZ=  0.23057371E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69943051E-01 Y=  0.93472351E-11 Z= -0.42990875E-07   Total=     0.06994305
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25665667E+01         XY=  0.66086605E+00         XZ=  0.58518563E+00
                YY=  0.12448341E+01         YZ= -0.40611767E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4587825E-02 Y=  0.1848930E-08 Z=  0.4611566E-02  Total=      0.0065050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117506E+02         XY=  0.22939122E-01         XZ=  0.43373650E-01
                YY= -0.10161240E+02         YZ=  0.23057826E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61072500E-01 Y=  0.10768989E-10 Z=  0.93149085E-07   Total=     0.06107250
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23989360E+01         XY=  0.57705149E+00         XZ=  0.51097294E+00
                YY=  0.12448340E+01         YZ=  0.88023060E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8423387E-02 Y=  0.1847991E-08 Z=  0.4611795E-02  Total=      0.0096032
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079151E+02         XY=  0.42116933E-01         XZ=  0.60360099E-01
                YY= -0.10161240E+02         YZ=  0.23058971E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28965546E-01 Y=  0.92860550E-11 Z=  0.80095227E-07   Total=     0.02896555
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17922019E+01         XY=  0.27368475E+00         XZ=  0.24234799E+00
                YY=  0.12448332E+01         YZ=  0.75687723E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9054035E-02 Y=  0.1847991E-08 Z=  0.4611844E-02  Total=      0.0101609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072844E+02         XY=  0.45270174E-01         XZ=  0.63153250E-01
                YY= -0.10161240E+02         YZ=  0.23059219E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14162002E-01 Y=  0.57044295E-11 Z= -0.64665711E-07   Total=     0.01416200
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97721049E+00         XY= -0.13381153E+00         XZ= -0.11848474E+00
                YY=  0.12448329E+01         YZ= -0.61094539E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6239826E-02 Y=  0.1849003E-08 Z=  0.4611644E-02  Total=      0.0077590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100986E+02         XY=  0.31199129E-01         XZ=  0.50690133E-01
                YY= -0.10161240E+02         YZ=  0.23058220E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51901286E-01 Y=  0.17729911E-11 Z= -0.14070399E-06   Total=     0.05190129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26404275E+00         XY= -0.49039608E+00         XZ= -0.43423680E+00
                YY=  0.12448334E+01         YZ= -0.13294360E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1051491E-02 Y=  0.1850664E-08 Z=  0.4611468E-02  Total=      0.0047298
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152870E+02         XY=  0.52574554E-02         XZ=  0.27713616E-01
                YY= -0.10161240E+02         YZ=  0.23057341E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69893520E-01 Y= -0.69455030E-12 Z= -0.41192747E-07   Total=     0.06989352
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75961545E-01         XY= -0.66039806E+00         XZ= -0.58477226E+00
                YY=  0.12448341E+01         YZ= -0.38921199E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4536945E-02 Y=  0.1857599E-08 Z=  0.4611557E-02  Total=      0.0064692
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208754E+02         XY= -0.22684728E-01         XZ=  0.29665241E-02
                YY= -0.10161240E+02         YZ=  0.23057785E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61293132E-01 Y= -0.67626431E-12 Z=  0.99059978E-07   Total=     0.06129313
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86560678E-01         XY= -0.57913616E+00         XZ= -0.51281720E+00
                YY=  0.12448340E+01         YZ=  0.93598412E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8399230E-02 Y=  0.1858466E-08 Z=  0.4611787E-02  Total=      0.0095820
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247377E+02         XY= -0.41996154E-01         XZ= -0.14135973E-01
                YY= -0.10161240E+02         YZ=  0.23058934E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29372319E-01 Y=  0.16287516E-11 Z=  0.88333563E-07   Total=     0.02937232
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68977598E+00         XY= -0.27752819E+00         XZ= -0.24574976E+00
                YY=  0.12448333E+01         YZ=  0.83465334E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9065864E-02 Y=  0.1858394E-08 Z=  0.4611840E-02  Total=      0.0101715
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254043E+02         XY= -0.45329322E-01         XZ= -0.17087969E-01
                YY= -0.10161240E+02         YZ=  0.23059199E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13723924E-01 Y=  0.49815275E-11 Z= -0.58584567E-07   Total=     0.01372392
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15041781E+01         XY=  0.12967229E+00         XZ=  0.11481830E+00
                YY=  0.12448329E+01         YZ= -0.55349375E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6283204E-02 Y=  0.1857888E-08 Z=  0.4611642E-02  Total=      0.0077940
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226217E+02         XY= -0.31416024E-01         XZ= -0.47665548E-02
                YY= -0.10161240E+02         YZ=  0.23058209E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51598645E-01 Y=  0.77744686E-11 Z= -0.14086191E-06   Total=     0.05159864
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22199080E+01         XY=  0.48753654E+00         XZ=  0.43170198E+00
                YY=  0.12448334E+01         YZ= -0.13308785E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1109972E-02 Y=  0.1857816E-08 Z=  0.4611464E-02  Total=      0.0047432
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174484E+02         XY= -0.55498630E-02         XZ=  0.18141308E-01
                YY= -0.10161240E+02         YZ=  0.23057319E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69841534E-01 Y=  0.88446106E-11 Z= -0.47738021E-07   Total=     0.06984153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25646483E+01         XY=  0.65990686E+00         XZ=  0.58433629E+00
                YY=  0.12448341E+01         YZ= -0.45097624E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4485563E-02 Y=  0.1864029E-08 Z=  0.4611550E-02  Total=      0.0064332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118529E+02         XY=  0.22427811E-01         XZ=  0.42920694E-01
                YY= -0.10161240E+02         YZ=  0.23057747E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61511657E-01 Y=  0.80219364E-11 Z=  0.89817022E-07   Total=     0.06151166
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24072349E+01         XY=  0.58120093E+00         XZ=  0.51464705E+00
                YY=  0.12448340E+01         YZ=  0.84872360E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8374454E-02 Y=  0.1864534E-08 Z=  0.4611779E-02  Total=      0.0095603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079640E+02         XY=  0.41872268E-01         XZ=  0.60143296E-01
                YY= -0.10161240E+02         YZ=  0.23058894E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29778301E-01 Y=  0.61534049E-11 Z=  0.80466002E-07   Total=     0.02977830
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18075607E+01         XY=  0.28136416E+00         XZ=  0.24914778E+00
                YY=  0.12448333E+01         YZ=  0.76035338E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9077088E-02 Y=  0.1865257E-08 Z=  0.4611834E-02  Total=      0.0101815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072614E+02         XY=  0.45385440E-01         XZ=  0.63255244E-01
                YY= -0.10161240E+02         YZ=  0.23059170E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13284855E-01 Y=  0.46113285E-11 Z= -0.63261450E-07   Total=     0.01328486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99378611E+00         XY= -0.12552369E+00         XZ= -0.11114615E+00
                YY=  0.12448329E+01         YZ= -0.59768755E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6326136E-02 Y=  0.1865835E-08 Z=  0.4611638E-02  Total=      0.0078286
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100123E+02         XY=  0.31630679E-01         XZ=  0.51072258E-01
                YY= -0.10161240E+02         YZ=  0.23058186E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51293445E-01 Y=  0.45484328E-11 Z= -0.14207657E-06   Total=     0.05129345
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27552923E+00         XY= -0.48465282E+00         XZ= -0.42915123E+00
                YY=  0.12448334E+01         YZ= -0.13423835E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1168264E-02 Y=  0.1866124E-08 Z=  0.4611458E-02  Total=      0.0047571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151702E+02         XY=  0.58413165E-02         XZ=  0.28230625E-01
                YY= -0.10161240E+02         YZ=  0.23057288E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69786226E-01 Y=  0.62834033E-11 Z= -0.44870375E-07   Total=     0.06978623
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73933966E-01         XY= -0.65938427E+00         XZ= -0.58387428E+00
                YY=  0.12448341E+01         YZ= -0.42390388E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4434093E-02 Y=  0.1871542E-08 Z=  0.4611541E-02  Total=      0.0063975
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207726E+02         XY= -0.22170469E-01         XZ=  0.34218821E-02
                YY= -0.10161240E+02         YZ=  0.23057705E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61727188E-01 Y=  0.91264373E-11 Z=  0.97350459E-07   Total=     0.06172719
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78358205E-01         XY= -0.58323740E+00         XZ= -0.51644818E+00
                YY=  0.12448340E+01         YZ=  0.91991185E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8349384E-02 Y=  0.1871397E-08 Z=  0.4611772E-02  Total=      0.0095384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246879E+02         XY= -0.41746922E-01         XZ= -0.13915308E-01
                YY= -0.10161240E+02         YZ=  0.23058856E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30182572E-01 Y=  0.11730439E-10 Z=  0.90898326E-07   Total=     0.03018257
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67446438E+00         XY= -0.28518397E+00         XZ= -0.25252798E+00
                YY=  0.12448333E+01         YZ=  0.85896977E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9087941E-02 Y=  0.1872336E-08 Z=  0.4611830E-02  Total=      0.0101912
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254264E+02         XY= -0.45439707E-01         XZ= -0.17185736E-01
                YY= -0.10161240E+02         YZ=  0.23059150E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12845757E-01 Y=  0.12784023E-10 Z= -0.54546048E-07   Total=     0.01284576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14875831E+01         XY=  0.12137482E+00         XZ=  0.10747192E+00
                YY=  0.12448329E+01         YZ= -0.51527161E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6368757E-02 Y=  0.1873781E-08 Z=  0.4611636E-02  Total=      0.0078631
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227072E+02         XY= -0.31843787E-01         XZ= -0.51453621E-02
                YY= -0.10161240E+02         YZ=  0.23058176E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50986689E-01 Y=  0.11693011E-10 Z= -0.13944594E-06   Total=     0.05098669
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22083436E+01         XY=  0.48175440E+00         XZ=  0.42658269E+00
                YY=  0.12448334E+01         YZ= -0.13174686E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1226401E-02 Y=  0.1874793E-08 Z=  0.4611454E-02  Total=      0.0047717
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175649E+02         XY= -0.61320091E-02         XZ=  0.17625776E-01
                YY= -0.10161240E+02         YZ=  0.23057269E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69728634E-01 Y=  0.89016714E-11 Z= -0.48803494E-07   Total=     0.06972863
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25625148E+01         XY=  0.65884011E+00         XZ=  0.58339208E+00
                YY=  0.12448341E+01         YZ= -0.46104517E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4382605E-02 Y=  0.1880066E-08 Z=  0.4611534E-02  Total=      0.0063619
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119559E+02         XY=  0.21913021E-01         XZ=  0.42464800E-01
                YY= -0.10161240E+02         YZ=  0.23057671E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61940784E-01 Y=  0.56851891E-11 Z=  0.90313665E-07   Total=     0.06194078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24153442E+01         XY=  0.58525559E+00         XZ=  0.51823741E+00
                YY=  0.12448340E+01         YZ=  0.85339417E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8324191E-02 Y=  0.1878549E-08 Z=  0.4611764E-02  Total=      0.0095163
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080143E+02         XY=  0.41620951E-01         XZ=  0.59920749E-01
                YY= -0.10161240E+02         YZ=  0.23058820E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30586196E-01 Y=  0.35098659E-11 Z=  0.84759290E-07   Total=     0.03058620
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18228276E+01         XY=  0.28899767E+00         XZ=  0.25590686E+00
                YY=  0.12448333E+01         YZ=  0.80089425E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9098694E-02 Y=  0.1877393E-08 Z=  0.4611826E-02  Total=      0.0102007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072398E+02         XY=  0.45493469E-01         XZ=  0.63350970E-01
                YY= -0.10161240E+02         YZ=  0.23059126E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12405577E-01 Y=  0.32785374E-11 Z= -0.57940461E-07   Total=     0.01240558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10104020E+01         XY= -0.11721571E+00         XZ= -0.10378999E+00
                YY=  0.12448328E+01         YZ= -0.54742535E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6411440E-02 Y=  0.1878477E-08 Z=  0.4611632E-02  Total=      0.0078977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099270E+02         XY=  0.32057199E-01         XZ=  0.51450058E-01
                YY= -0.10161240E+02         YZ=  0.23058159E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50677348E-01 Y=  0.48417555E-11 Z= -0.13976054E-06   Total=     0.05067735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28717172E+00         XY= -0.47883154E+00         XZ= -0.42399702E+00
                YY=  0.12448334E+01         YZ= -0.13205003E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1284856E-02 Y=  0.1880427E-08 Z=  0.4611449E-02  Total=      0.0047871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150536E+02         XY=  0.64242794E-02         XZ=  0.28746948E-01
                YY= -0.10161240E+02         YZ=  0.23057243E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69667762E-01 Y=  0.70294705E-11 Z= -0.45328079E-07   Total=     0.06966776
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.71695351E-01         XY= -0.65826495E+00         XZ= -0.58288344E+00
                YY=  0.12448341E+01         YZ= -0.42822458E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4330531E-02 Y=  0.1886712E-08 Z=  0.4611527E-02  Total=      0.0063261
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206690E+02         XY= -0.21652658E-01         XZ=  0.38804694E-02
                YY= -0.10161240E+02         YZ=  0.23057634E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62151487E-01 Y=  0.82040070E-11 Z=  0.98308636E-07   Total=     0.06215149
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70340086E-01         XY= -0.58724645E+00         XZ= -0.51999816E+00
                YY=  0.12448340E+01         YZ=  0.92895554E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8298219E-02 Y=  0.1887073E-08 Z=  0.4611758E-02  Total=      0.0094936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246367E+02         XY= -0.41491098E-01         XZ= -0.13688744E-01
                YY= -0.10161240E+02         YZ=  0.23058788E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30988257E-01 Y=  0.70754209E-11 Z=  0.95688156E-07   Total=     0.03098826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65923908E+00         XY= -0.29279659E+00         XZ= -0.25926858E+00
                YY=  0.12448333E+01         YZ=  0.90418622E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9108609E-02 Y=  0.1886785E-08 Z=  0.4611823E-02  Total=      0.0102096
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254471E+02         XY= -0.45543047E-01         XZ= -0.17277227E-01
                YY= -0.10161240E+02         YZ=  0.23059112E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11965186E-01 Y=  0.33823760E-11 Z= -0.48559232E-07   Total=     0.01196519
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14709426E+01         XY=  0.11305462E+00         XZ=  0.10010495E+00
                YY=  0.12448328E+01         YZ= -0.45878498E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6453367E-02 Y=  0.1886207E-08 Z=  0.4611631E-02  Total=      0.0079318
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227918E+02         XY= -0.32266835E-01         XZ= -0.55199697E-02
                YY= -0.10161240E+02         YZ=  0.23058155E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50366247E-01 Y= -0.19040822E-11 Z= -0.13626912E-06   Total=     0.05036625
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21966189E+01         XY=  0.47589207E+00         XZ=  0.42139214E+00
                YY=  0.12448333E+01         YZ= -0.12875677E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1342734E-02 Y=  0.1885484E-08 Z=  0.4611447E-02  Total=      0.0048030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176812E+02         XY= -0.67136734E-02         XZ=  0.17110690E-01
                YY= -0.10161240E+02         YZ=  0.23057231E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69604391E-01 Y= -0.69731764E-11 Z= -0.48266501E-07   Total=     0.06960439
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25601669E+01         XY=  0.65766619E+00         XZ=  0.58235294E+00
                YY=  0.12448341E+01         YZ= -0.45610606E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4278837E-02 Y=  0.1889602E-08 Z=  0.4611522E-02  Total=      0.0062908
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120596E+02         XY=  0.21394184E-01         XZ=  0.42005347E-01
                YY= -0.10161240E+02         YZ=  0.23057606E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62360040E-01 Y= -0.99944903E-11 Z=  0.92315948E-07   Total=     0.06236004
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24232670E+01         XY=  0.58921698E+00         XZ=  0.52174540E+00
                YY=  0.12448340E+01         YZ=  0.87218003E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8272498E-02 Y=  0.1887362E-08 Z=  0.4611752E-02  Total=      0.0094711
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080660E+02         XY=  0.41362490E-01         XZ=  0.59691913E-01
                YY= -0.10161240E+02         YZ=  0.23058758E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31389468E-01 Y= -0.99836529E-11 Z=  0.90556073E-07   Total=     0.03138947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18380072E+01         XY=  0.29658749E+00         XZ=  0.26262768E+00
                YY=  0.12448333E+01         YZ=  0.85555147E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9118775E-02 Y=  0.1885556E-08 Z=  0.4611819E-02  Total=      0.0102187
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072197E+02         XY=  0.45593875E-01         XZ=  0.63440005E-01
                YY= -0.10161240E+02         YZ=  0.23059094E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11523884E-01 Y= -0.72983535E-11 Z= -0.51095718E-07   Total=     0.01152388
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10270635E+01         XY= -0.10888492E+00         XZ= -0.96413107E-01
                YY=  0.12448328E+01         YZ= -0.48284169E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6495686E-02 Y=  0.1884328E-08 Z=  0.4611629E-02  Total=      0.0079662
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098428E+02         XY=  0.32478428E-01         XZ=  0.51823258E-01
                YY= -0.10161240E+02         YZ=  0.23058145E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50052683E-01 Y= -0.35128196E-11 Z= -0.13599645E-06   Total=     0.05005268
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29897613E+00         XY= -0.47292932E+00         XZ= -0.41877060E+00
                YY=  0.12448333E+01         YZ= -0.12850057E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1401245E-02 Y=  0.1885195E-08 Z=  0.4611443E-02  Total=      0.0048196
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149372E+02         XY=  0.70062210E-02         XZ=  0.29262475E-01
                YY= -0.10161240E+02         YZ=  0.23057213E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69537801E-01 Y= -0.71057286E-12 Z= -0.44512546E-07   Total=     0.06953780
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.69239451E-01         XY= -0.65703700E+00         XZ= -0.58179595E+00
                YY=  0.12448341E+01         YZ= -0.42058465E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4226254E-02 Y=  0.1891552E-08 Z=  0.4611516E-02  Total=      0.0062552
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205647E+02         XY= -0.21131271E-01         XZ=  0.43423503E-02
                YY= -0.10161240E+02         YZ=  0.23057578E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62565699E-01 Y= -0.51269224E-12 Z=  0.10040870E-06   Total=     0.06256570
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62512634E-01         XY= -0.59116018E+00         XZ= -0.52346343E+00
                YY=  0.12448340E+01         YZ=  0.94872440E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8245700E-02 Y=  0.1892058E-08 Z=  0.4611747E-02  Total=      0.0094477
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245842E+02         XY= -0.41228504E-01         XZ= -0.13456052E-01
                YY= -0.10161240E+02         YZ=  0.23058734E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31789074E-01 Y= -0.32937893E-11 Z=  0.10164551E-06   Total=     0.03178907
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64410581E+00         XY= -0.30036322E+00         XZ= -0.26596835E+00
                YY=  0.12448333E+01         YZ=  0.96038732E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9127807E-02 Y=  0.1890686E-08 Z=  0.4611818E-02  Total=      0.0102267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254663E+02         XY= -0.45639038E-01         XZ= -0.17362078E-01
                YY= -0.10161240E+02         YZ=  0.23059087E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11082421E-01 Y= -0.79618876E-11 Z= -0.41308870E-07   Total=     0.01108242
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14542607E+01         XY=  0.10471370E+00         XZ=  0.92719541E-01
                YY=  0.12448328E+01         YZ= -0.39037484E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6536957E-02 Y=  0.1888518E-08 Z=  0.4611630E-02  Total=      0.0079999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228754E+02         XY= -0.32684785E-01         XZ= -0.58899384E-02
                YY= -0.10161240E+02         YZ=  0.23058150E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49737371E-01 Y= -0.12421705E-10 Z= -0.13188527E-06   Total=     0.04973737
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21847348E+01         XY=  0.46995005E+00         XZ=  0.41613076E+00
                YY=  0.12448333E+01         YZ= -0.12462353E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1458894E-02 Y=  0.1887868E-08 Z=  0.4611442E-02  Total=      0.0048367
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177974E+02         XY= -0.72944728E-02         XZ=  0.16596479E-01
                YY= -0.10161240E+02         YZ=  0.23057210E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69468639E-01 Y= -0.14522212E-10 Z= -0.46853359E-07   Total=     0.06946864
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25576016E+01         XY=  0.65638352E+00         XZ=  0.58121712E+00
                YY=  0.12448341E+01         YZ= -0.44281790E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4174318E-02 Y=  0.1891841E-08 Z=  0.4611512E-02  Total=      0.0062202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121641E+02         XY=  0.20871588E-01         XZ=  0.41542654E-01
                YY= -0.10161240E+02         YZ=  0.23057559E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62769020E-01 Y= -0.13059737E-10 Z=  0.94694200E-07   Total=     0.06276902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24309956E+01         XY=  0.59308129E+00         XZ=  0.52516695E+00
                YY=  0.12448341E+01         YZ=  0.89462464E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8219398E-02 Y=  0.1889891E-08 Z=  0.4611743E-02  Total=      0.0094248
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081191E+02         XY=  0.41096987E-01         XZ=  0.59456907E-01
                YY= -0.10161240E+02         YZ=  0.23058713E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32187520E-01 Y= -0.83695592E-11 Z=  0.96262103E-07   Total=     0.03218752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18530882E+01         XY=  0.30412799E+00         XZ=  0.26930435E+00
                YY=  0.12448333E+01         YZ=  0.90947814E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9137303E-02 Y=  0.1889891E-08 Z=  0.4611816E-02  Total=      0.0102352
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072012E+02         XY=  0.45686513E-01         XZ=  0.63522206E-01
                YY= -0.10161240E+02         YZ=  0.23059078E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10640463E-01 Y= -0.22247105E-11 Z= -0.44681023E-07   Total=     0.01064046
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10437577E+01         XY= -0.10053781E+00         XZ= -0.89022209E-01
                YY=  0.12448329E+01         YZ= -0.42219019E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6578793E-02 Y=  0.1890252E-08 Z=  0.4611630E-02  Total=      0.0080342
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097597E+02         XY=  0.32893965E-01         XZ=  0.52191442E-01
                YY= -0.10161240E+02         YZ=  0.23058147E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49420086E-01 Y=  0.29276774E-11 Z= -0.13291996E-06   Total=     0.04942009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31093048E+00         XY= -0.46695214E+00         XZ= -0.41347817E+00
                YY=  0.12448334E+01         YZ= -0.12558843E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1517307E-02 Y=  0.1891119E-08 Z=  0.4611440E-02  Total=      0.0048546
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148212E+02         XY=  0.75865312E-02         XZ=  0.29776569E-01
                YY= -0.10161240E+02         YZ=  0.23057199E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69396784E-01 Y=  0.50536261E-11 Z= -0.44602691E-07   Total=     0.06939678
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.66574586E-01         XY= -0.65570458E+00         XZ= -0.58061622E+00
                YY=  0.12448341E+01         YZ= -0.42138907E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4121406E-02 Y=  0.1896609E-08 Z=  0.4611508E-02  Total=      0.0061848
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204599E+02         XY= -0.20607031E-01         XZ=  0.48067576E-02
                YY= -0.10161240E+02         YZ=  0.23057537E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62969976E-01 Y=  0.34480454E-11 Z=  0.10147643E-06   Total=     0.06296998
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54872939E-01         XY= -0.59498005E+00         XZ= -0.52684574E+00
                YY=  0.12448341E+01         YZ=  0.95884534E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8191973E-02 Y=  0.1896609E-08 Z=  0.4611739E-02  Total=      0.0094009
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245305E+02         XY= -0.40959866E-01         XZ= -0.13218013E-01
                YY= -0.10161240E+02         YZ=  0.23058694E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32584872E-01 Y= -0.94286585E-12 Z=  0.10659686E-06   Total=     0.03258487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62906741E+00         XY= -0.30788242E+00         XZ= -0.27262615E+00
                YY=  0.12448333E+01         YZ=  0.10071898E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9145659E-02 Y=  0.1896176E-08 Z=  0.4611816E-02  Total=      0.0102427
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254841E+02         XY= -0.45728297E-01         XZ= -0.17440975E-01
                YY= -0.10161240E+02         YZ=  0.23059077E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10197857E-01 Y= -0.59452563E-11 Z= -0.34929484E-07   Total=     0.01019786
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14375449E+01         XY=  0.96355780E-01         XZ=  0.85319149E-01
                YY=  0.12448329E+01         YZ= -0.33008214E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6619615E-02 Y=  0.1894803E-08 Z=  0.4611632E-02  Total=      0.0080676
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229581E+02         XY= -0.33098074E-01         XZ= -0.62557859E-02
                YY= -0.10161240E+02         YZ=  0.23058158E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49100581E-01 Y= -0.91430948E-11 Z= -0.12823801E-06   Total=     0.04910058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21727013E+01         XY=  0.46393325E+00         XZ=  0.41080332E+00
                YY=  0.12448334E+01         YZ= -0.12117469E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1574929E-02 Y=  0.1893503E-08 Z=  0.4611441E-02  Total=      0.0048730
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179134E+02         XY= -0.78746467E-02         XZ=  0.16082820E-01
                YY= -0.10161240E+02         YZ=  0.23057202E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69321897E-01 Y= -0.89789766E-11 Z= -0.46069440E-07   Total=     0.06932190
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25548286E+01         XY=  0.65499700E+00         XZ=  0.57998953E+00
                YY=  0.12448341E+01         YZ= -0.43536534E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4069034E-02 Y=  0.1897910E-08 Z=  0.4611505E-02  Total=      0.0061500
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122694E+02         XY=  0.20345167E-01         XZ=  0.41076577E-01
                YY= -0.10161240E+02         YZ=  0.23057525E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63168145E-01 Y= -0.54684377E-11 Z=  0.96612787E-07   Total=     0.06316815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24385380E+01         XY=  0.59685248E+00         XZ=  0.52850624E+00
                YY=  0.12448341E+01         YZ=  0.91281537E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8164900E-02 Y=  0.1897621E-08 Z=  0.4611736E-02  Total=      0.0093773
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081736E+02         XY=  0.40824497E-01         XZ=  0.59215721E-01
                YY= -0.10161240E+02         YZ=  0.23058679E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32980638E-01 Y= -0.20050139E-12 Z=  0.10178953E-06   Total=     0.03298064
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18680760E+01         XY=  0.31162186E+00         XZ=  0.27593987E+00
                YY=  0.12448334E+01         YZ=  0.96177240E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9154302E-02 Y=  0.1896465E-08 Z=  0.4611815E-02  Total=      0.0102504
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071842E+02         XY=  0.45771508E-01         XZ=  0.63597648E-01
                YY= -0.10161240E+02         YZ=  0.23059073E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97551402E-02 Y=  0.43792006E-11 Z= -0.38187514E-07   Total=     0.00975514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10604879E+01         XY= -0.92172717E-01         XZ= -0.81615330E-01
                YY=  0.12448329E+01         YZ= -0.36078064E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6660795E-02 Y=  0.1896031E-08 Z=  0.4611633E-02  Total=      0.0081014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096777E+02         XY=  0.33303974E-01         XZ=  0.52554742E-01
                YY= -0.10161240E+02         YZ=  0.23058162E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48779426E-01 Y=  0.60768443E-11 Z= -0.12977042E-06   Total=     0.04877943
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32303718E+00         XY= -0.46089878E+00         XZ= -0.40811833E+00
                YY=  0.12448334E+01         YZ= -0.12260992E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1633083E-02 Y=  0.1896320E-08 Z=  0.4611440E-02  Total=      0.0048921
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147054E+02         XY=  0.81654120E-02         XZ=  0.30289405E-01
                YY= -0.10161240E+02         YZ=  0.23057199E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69244565E-01 Y=  0.39454541E-11 Z= -0.44996557E-07   Total=     0.06924457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.63698038E-01         XY= -0.65426632E+00         XZ= -0.57934293E+00
                YY=  0.12448341E+01         YZ= -0.42511976E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4015936E-02 Y=  0.1902461E-08 Z=  0.4611502E-02  Total=      0.0061150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203544E+02         XY= -0.20079679E-01         XZ=  0.52739195E-02
                YY= -0.10161240E+02         YZ=  0.23057509E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63364127E-01 Y= -0.12844858E-11 Z=  0.10163049E-06   Total=     0.06336413
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47424604E-01         XY= -0.59870423E+00         XZ= -0.53014360E+00
                YY=  0.12448341E+01         YZ=  0.96026163E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8136969E-02 Y=  0.1903183E-08 Z=  0.4611734E-02  Total=      0.0093530
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244755E+02         XY= -0.40684845E-01         XZ= -0.12974337E-01
                YY= -0.10161240E+02         YZ=  0.23058666E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33375433E-01 Y= -0.75329748E-11 Z=  0.11003209E-06   Total=     0.03337543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61412797E+00         XY= -0.31535214E+00         XZ= -0.27924050E+00
                YY=  0.12448334E+01         YZ=  0.10395930E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9162081E-02 Y=  0.1902389E-08 Z=  0.4611816E-02  Total=      0.0102573
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255006E+02         XY= -0.45810405E-01         XZ= -0.17513568E-01
                YY= -0.10161240E+02         YZ=  0.23059076E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93116744E-02 Y= -0.12305264E-10 Z= -0.30540208E-07   Total=     0.00931167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14207984E+01         XY=  0.87982572E-01         XZ=  0.77904806E-01
                YY=  0.12448329E+01         YZ= -0.28866281E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6701246E-02 Y=  0.1901160E-08 Z=  0.4611636E-02  Total=      0.0081347
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230397E+02         XY= -0.33506232E-01         XZ= -0.66171339E-02
                YY= -0.10161240E+02         YZ=  0.23058176E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48455949E-01 Y= -0.13802961E-10 Z= -0.12697051E-06   Total=     0.04845595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21605195E+01         XY=  0.45784237E+00         XZ=  0.40540986E+00
                YY=  0.12448334E+01         YZ= -0.11998100E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1690744E-02 Y=  0.1900366E-08 Z=  0.4611441E-02  Total=      0.0049116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180292E+02         XY= -0.84537218E-02         XZ=  0.15570075E-01
                YY= -0.10161240E+02         YZ=  0.23057205E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69164081E-01 Y= -0.11707626E-10 Z= -0.48035197E-07   Total=     0.06916408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25518463E+01         XY=  0.65350585E+00         XZ=  0.57866895E+00
                YY=  0.12448341E+01         YZ= -0.45396215E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3963067E-02 Y=  0.1905134E-08 Z=  0.4611500E-02  Total=      0.0060804
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123754E+02         XY=  0.19815333E-01         XZ=  0.40607404E-01
                YY= -0.10161240E+02         YZ=  0.23057499E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63557186E-01 Y= -0.72861247E-11 Z=  0.95460352E-07   Total=     0.06355719
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24458898E+01         XY=  0.60052837E+00         XZ=  0.53176091E+00
                YY=  0.12448341E+01         YZ=  0.90191111E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8109066E-02 Y=  0.1905495E-08 Z=  0.4611731E-02  Total=      0.0093287
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082294E+02         XY=  0.40545326E-01         XZ=  0.58968537E-01
                YY= -0.10161240E+02         YZ=  0.23058653E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33768512E-01 Y= -0.27795994E-11 Z=  0.10403521E-06   Total=     0.03376851
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18829646E+01         XY=  0.31906620E+00         XZ=  0.28253142E+00
                YY=  0.12448334E+01         YZ=  0.98296949E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9169810E-02 Y=  0.1905856E-08 Z=  0.4611815E-02  Total=      0.0102642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071687E+02         XY=  0.45849050E-01         XZ=  0.63666405E-01
                YY= -0.10161240E+02         YZ=  0.23059075E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88681915E-02 Y= -0.36454316E-12 Z= -0.35096701E-07   Total=     0.00886819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10772487E+01         XY= -0.83792267E-01         XZ= -0.74194835E-01
                YY=  0.12448329E+01         YZ= -0.33161610E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6741713E-02 Y=  0.1905639E-08 Z=  0.4611637E-02  Total=      0.0081681
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095968E+02         XY=  0.33708562E-01         XZ=  0.52913159E-01
                YY= -0.10161240E+02         YZ=  0.23058182E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48130847E-01 Y= -0.11679377E-11 Z= -0.13013628E-06   Total=     0.04813085
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33529352E+00         XY= -0.45477060E+00         XZ= -0.40269211E+00
                YY=  0.12448334E+01         YZ= -0.12296165E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1748592E-02 Y=  0.1905639E-08 Z=  0.4611441E-02  Total=      0.0049318
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145899E+02         XY=  0.87429563E-02         XZ=  0.30800979E-01
                YY= -0.10161240E+02         YZ=  0.23057202E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69081093E-01 Y= -0.47815858E-11 Z= -0.49009914E-07   Total=     0.06908109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.60608843E-01         XY= -0.65272173E+00         XZ= -0.57797531E+00
                YY=  0.12448341E+01         YZ= -0.46311348E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3909812E-02 Y=  0.1911491E-08 Z=  0.4611497E-02  Total=      0.0060459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202483E+02         XY= -0.19549061E-01         XZ=  0.57439024E-02
                YY= -0.10161240E+02         YZ=  0.23057484E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63747918E-01 Y= -0.94858525E-11 Z=  0.98202216E-07   Total=     0.06374792
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40172021E-01         XY= -0.60233053E+00         XZ= -0.53335458E+00
                YY=  0.12448342E+01         YZ=  0.92780011E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8080632E-02 Y=  0.1911852E-08 Z=  0.4611728E-02  Total=      0.0093040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244191E+02         XY= -0.40403164E-01         XZ= -0.12724828E-01
                YY= -0.10161240E+02         YZ=  0.23058638E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34160425E-01 Y= -0.13063367E-10 Z=  0.11018251E-06   Total=     0.03416043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59929374E+00         XY= -0.32276924E+00         XZ= -0.28580808E+00
                YY=  0.12448334E+01         YZ=  0.10409672E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9176988E-02 Y=  0.1910479E-08 Z=  0.4611816E-02  Total=      0.0102706
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255155E+02         XY= -0.45884944E-01         XZ= -0.17579521E-01
                YY= -0.10161240E+02         YZ=  0.23059076E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84241788E-02 Y= -0.13819703E-10 Z= -0.28942254E-07   Total=     0.00842418
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14040271E+01         XY=  0.79596954E-01         XZ=  0.70479610E-01
                YY=  0.12448329E+01         YZ= -0.27357809E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6781746E-02 Y=  0.1907590E-08 Z=  0.4611639E-02  Total=      0.0082012
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231202E+02         XY= -0.33908731E-01         XZ= -0.69735320E-02
                YY= -0.10161240E+02         YZ=  0.23058194E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47803631E-01 Y= -0.11339830E-10 Z= -0.12801826E-06   Total=     0.04780363
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21481924E+01         XY=  0.45167885E+00         XZ=  0.39995215E+00
                YY=  0.12448334E+01         YZ= -0.12096903E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1806228E-02 Y=  0.1904917E-08 Z=  0.4611442E-02  Total=      0.0049526
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181447E+02         XY= -0.90311400E-02         XZ=  0.15058734E-01
                YY= -0.10161240E+02         YZ=  0.23057206E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68995121E-01 Y= -0.66426871E-11 Z= -0.52008935E-07   Total=     0.06899512
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25486534E+01         XY=  0.65190941E+00         XZ=  0.57725509E+00
                YY=  0.12448341E+01         YZ= -0.49146739E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3856518E-02 Y=  0.1908096E-08 Z=  0.4611495E-02  Total=      0.0060115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124820E+02         XY=  0.19282586E-01         XZ=  0.40135582E-01
                YY= -0.10161240E+02         YZ=  0.23057472E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63935845E-01 Y= -0.16827381E-11 Z=  0.92475303E-07   Total=     0.06393585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24530455E+01         XY=  0.60410619E+00         XZ=  0.53492857E+00
                YY=  0.12448342E+01         YZ=  0.87375213E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8051967E-02 Y=  0.1906001E-08 Z=  0.4611725E-02  Total=      0.0092791
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082865E+02         XY=  0.40259834E-01         XZ=  0.58715674E-01
                YY= -0.10161240E+02         YZ=  0.23058624E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34550691E-01 Y=  0.15554198E-11 Z=  0.10460851E-06   Total=     0.03455069
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18977456E+01         XY=  0.32645672E+00         XZ=  0.28907503E+00
                YY=  0.12448334E+01         YZ=  0.98842139E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9183863E-02 Y=  0.1904700E-08 Z=  0.4611815E-02  Total=      0.0102768
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071546E+02         XY=  0.45919316E-01         XZ=  0.63728622E-01
                YY= -0.10161240E+02         YZ=  0.23059072E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.79801214E-02 Y=  0.19413897E-11 Z= -0.33518560E-07   Total=     0.00798012
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10940307E+01         XY= -0.75401220E-01         XZ= -0.66765329E-01
                YY=  0.12448329E+01         YZ= -0.31668711E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6821545E-02 Y=  0.1903183E-08 Z=  0.4611640E-02  Total=      0.0082341
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095169E+02         XY=  0.34107724E-01         XZ=  0.53266655E-01
                YY= -0.10161240E+02         YZ=  0.23058198E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47474792E-01 Y= -0.33861385E-12 Z= -0.13194838E-06   Total=     0.04747479
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34769111E+00         XY= -0.44857178E+00         XZ= -0.39720377E+00
                YY=  0.12448334E+01         YZ= -0.12467333E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1863803E-02 Y=  0.1902172E-08 Z=  0.4611441E-02  Total=      0.0049738
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144747E+02         XY=  0.93190139E-02         XZ=  0.31311104E-01
                YY= -0.10161240E+02         YZ=  0.23057201E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68906672E-01 Y= -0.39364569E-11 Z= -0.54526568E-07   Total=     0.06890667
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.57312781E-01         XY= -0.65107369E+00         XZ= -0.57651649E+00
                YY=  0.12448341E+01         YZ= -0.51523354E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3803082E-02 Y=  0.1906578E-08 Z=  0.4611491E-02  Total=      0.0059774
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201416E+02         XY= -0.19015410E-01         XZ=  0.62164222E-02
                YY= -0.10161240E+02         YZ=  0.23057453E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64121492E-01 Y= -0.70195279E-11 Z=  0.93218814E-07   Total=     0.06412149
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33112485E-01         XY= -0.60586030E+00         XZ= -0.53648041E+00
                YY=  0.12448342E+01         YZ=  0.88073184E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8023016E-02 Y=  0.1906651E-08 Z=  0.4611721E-02  Total=      0.0092540
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243615E+02         XY= -0.40115084E-01         XZ= -0.12469813E-01
                YY= -0.10161240E+02         YZ=  0.23058604E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34939852E-01 Y= -0.81391873E-11 Z=  0.10889300E-06   Total=     0.03493985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58456467E+00         XY= -0.33013375E+00         XZ= -0.29232927E+00
                YY=  0.12448334E+01         YZ=  0.10288216E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9190431E-02 Y=  0.1905784E-08 Z=  0.4611814E-02  Total=      0.0102826
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255289E+02         XY= -0.45952157E-01         XZ= -0.17639151E-01
                YY= -0.10161240E+02         YZ=  0.23059068E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.75354623E-02 Y= -0.68824082E-11 Z= -0.28497962E-07   Total=     0.00753546
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13872327E+01         XY=  0.71199800E-01         XZ=  0.63044201E-01
                YY=  0.12448329E+01         YZ= -0.26932481E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6861155E-02 Y=  0.1903400E-08 Z=  0.4611641E-02  Total=      0.0082670
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231996E+02         XY= -0.34305774E-01         XZ= -0.73252576E-02
                YY= -0.10161240E+02         YZ=  0.23058204E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47143772E-01 Y= -0.40170847E-11 Z= -0.12992083E-06   Total=     0.04714377
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21357228E+01         XY=  0.44544409E+00         XZ=  0.39443155E+00
                YY=  0.12448333E+01         YZ= -0.12276085E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1921409E-02 Y=  0.1901738E-08 Z=  0.4611441E-02  Total=      0.0049957
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182599E+02         XY= -0.96070479E-02         XZ=  0.14548585E-01
                YY= -0.10161240E+02         YZ=  0.23057201E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68815202E-01 Y= -0.10845760E-11 Z= -0.56661427E-07   Total=     0.06881520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25452534E+01         XY=  0.65020943E+00         XZ=  0.57574990E+00
                YY=  0.12448341E+01         YZ= -0.53538318E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3749369E-02 Y=  0.1906434E-08 Z=  0.4611488E-02  Total=      0.0059434
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125891E+02         XY=  0.18746845E-01         XZ=  0.39660982E-01
                YY= -0.10161240E+02         YZ=  0.23057438E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64304354E-01 Y=  0.34969024E-12 Z=  0.88888290E-07   Total=     0.06430435
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24600093E+01         XY=  0.60758810E+00         XZ=  0.53801178E+00
                YY=  0.12448341E+01         YZ=  0.83987412E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7993606E-02 Y=  0.1906578E-08 Z=  0.4611718E-02  Total=      0.0092285
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083449E+02         XY=  0.39968028E-01         XZ=  0.58457115E-01
                YY= -0.10161240E+02         YZ=  0.23058586E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35327467E-01 Y= -0.57526522E-12 Z=  0.10466844E-06   Total=     0.03532747
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19124245E+01         XY=  0.33379619E+00         XZ=  0.29557397E+00
                YY=  0.12448334E+01         YZ=  0.98896701E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9196485E-02 Y=  0.1905423E-08 Z=  0.4611813E-02  Total=      0.0102881
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071420E+02         XY=  0.45982423E-01         XZ=  0.63784417E-01
                YY= -0.10161240E+02         YZ=  0.23059061E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70905625E-02 Y= -0.36424896E-11 Z= -0.32306105E-07   Total=     0.00709056
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11108409E+01         XY= -0.66996107E-01         XZ= -0.59322879E-01
                YY=  0.12448329E+01         YZ= -0.30528069E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6900343E-02 Y=  0.1905278E-08 Z=  0.4611641E-02  Total=      0.0082995
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094381E+02         XY=  0.34501712E-01         XZ=  0.53615510E-01
                YY= -0.10161240E+02         YZ=  0.23058205E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46810844E-01 Y= -0.76988165E-11 Z= -0.13395297E-06   Total=     0.04681084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36023785E+00         XY= -0.44229837E+00         XZ= -0.39164901E+00
                YY=  0.12448333E+01         YZ= -0.12657385E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1978797E-02 Y=  0.1904628E-08 Z=  0.4611439E-02  Total=      0.0050181
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143597E+02         XY=  0.98939829E-02         XZ=  0.31820220E-01
                YY= -0.10161240E+02         YZ=  0.23057193E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68720897E-01 Y= -0.11223735E-10 Z= -0.60037322E-07   Total=     0.06872090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.53802170E-01         XY= -0.64931837E+00         XZ= -0.57496248E+00
                YY=  0.12448341E+01         YZ= -0.56736673E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3695640E-02 Y=  0.1908673E-08 Z=  0.4611483E-02  Total=      0.0059096
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200341E+02         XY= -0.18478203E-01         XZ=  0.66920531E-02
                YY= -0.10161240E+02         YZ=  0.23057415E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64484538E-01 Y= -0.13041510E-10 Z=  0.88539480E-07   Total=     0.06448454
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26251885E-01         XY= -0.60929059E+00         XZ= -0.53951815E+00
                YY=  0.12448341E+01         YZ=  0.83646495E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7964001E-02 Y=  0.1909107E-08 Z=  0.4611713E-02  Total=      0.0092029
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243025E+02         XY= -0.39820005E-01         XZ= -0.12208641E-01
                YY= -0.10161240E+02         YZ=  0.23058562E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35713579E-01 Y= -0.12837747E-10 Z=  0.10832656E-06   Total=     0.03571358
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56994330E+00         XY= -0.33744442E+00         XZ= -0.29880296E+00
                YY=  0.12448334E+01         YZ=  0.10234269E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9202290E-02 Y=  0.1908673E-08 Z=  0.4611811E-02  Total=      0.0102932
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255408E+02         XY= -0.46011451E-01         XZ= -0.17691819E-01
                YY= -0.10161240E+02         YZ=  0.23059052E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66454264E-02 Y= -0.11249307E-10 Z= -0.26950206E-07   Total=     0.00664543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13704134E+01         XY=  0.62790179E-01         XZ=  0.55597416E-01
                YY=  0.12448329E+01         YZ= -0.25474045E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6939372E-02 Y=  0.1907445E-08 Z=  0.4611642E-02  Total=      0.0083320
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232779E+02         XY= -0.34696863E-01         XZ= -0.76717749E-02
                YY= -0.10161240E+02         YZ=  0.23058208E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46476039E-01 Y= -0.95009705E-11 Z= -0.13062927E-06   Total=     0.04647604
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21231044E+01         XY=  0.43913492E+00         XZ=  0.38884463E+00
                YY=  0.12448333E+01         YZ= -0.12343514E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2036225E-02 Y=  0.1905928E-08 Z=  0.4611438E-02  Total=      0.0050410
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183747E+02         XY= -0.10181126E-01         XZ=  0.14039974E-01
                YY= -0.10161240E+02         YZ=  0.23057190E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68623799E-01 Y= -0.87809327E-11 Z= -0.60410336E-07   Total=     0.06862380
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25416364E+01         XY=  0.64840093E+00         XZ=  0.57414817E+00
                YY=  0.12448341E+01         YZ= -0.57087288E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3641640E-02 Y=  0.1909613E-08 Z=  0.4611480E-02  Total=      0.0058760
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126968E+02         XY=  0.18208197E-01         XZ=  0.39183708E-01
                YY= -0.10161240E+02         YZ=  0.23057397E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64662087E-01 Y= -0.96612363E-11 Z=  0.85728219E-07   Total=     0.06466209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24667694E+01         XY=  0.61096818E+00         XZ=  0.54100442E+00
                YY=  0.12448341E+01         YZ=  0.80992882E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7933949E-02 Y=  0.1909035E-08 Z=  0.4611709E-02  Total=      0.0091769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084045E+02         XY=  0.39669743E-01         XZ=  0.58192705E-01
                YY= -0.10161240E+02         YZ=  0.23058541E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36098223E-01 Y= -0.11837844E-10 Z=  0.10481192E-06   Total=     0.03609822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19269897E+01         XY=  0.34107878E+00         XZ=  0.30202224E+00
                YY=  0.12448334E+01         YZ=  0.99022535E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9207597E-02 Y=  0.1908023E-08 Z=  0.4611809E-02  Total=      0.0102980
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071309E+02         XY=  0.46037985E-01         XZ=  0.63833410E-01
                YY= -0.10161240E+02         YZ=  0.23059042E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62000264E-02 Y= -0.14302444E-10 Z= -0.31056629E-07   Total=     0.00620003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11276695E+01         XY= -0.58581760E-01         XZ= -0.51872377E-01
                YY=  0.12448329E+01         YZ= -0.29356718E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6977997E-02 Y=  0.1906434E-08 Z=  0.4611642E-02  Total=      0.0083642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093605E+02         XY=  0.34889981E-01         XZ=  0.53959181E-01
                YY= -0.10161240E+02         YZ=  0.23058206E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46139335E-01 Y= -0.15850062E-10 Z= -0.13575991E-06   Total=     0.04613934
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37292745E+00         XY= -0.43595354E+00         XZ= -0.38603092E+00
                YY=  0.12448333E+01         YZ= -0.12828830E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2093449E-02 Y=  0.1904917E-08 Z=  0.4611436E-02  Total=      0.0050644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142450E+02         XY=  0.10467241E-01         XZ=  0.32327712E-01
                YY= -0.10161240E+02         YZ=  0.23057179E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68523887E-01 Y= -0.15669339E-10 Z= -0.65175021E-07   Total=     0.06852389
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.50079250E-01         XY= -0.64745690E+00         XZ= -0.57331419E+00
                YY=  0.12448341E+01         YZ= -0.61595137E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3587609E-02 Y=  0.1908384E-08 Z=  0.4611475E-02  Total=      0.0058427
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199261E+02         XY= -0.17938049E-01         XZ=  0.71702010E-02
                YY= -0.10161240E+02         YZ=  0.23057371E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64836969E-01 Y= -0.13727694E-10 Z=  0.84308732E-07   Total=     0.06483697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19591901E-01         XY= -0.61262057E+00         XZ= -0.54246662E+00
                YY=  0.12448341E+01         YZ=  0.79648120E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7903689E-02 Y=  0.1908384E-08 Z=  0.4611703E-02  Total=      0.0091507
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242422E+02         XY= -0.39518447E-01         XZ= -0.11941803E-01
                YY= -0.10161240E+02         YZ=  0.23058514E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36481350E-01 Y= -0.10771664E-10 Z=  0.10816272E-06   Total=     0.03648135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55543449E+00         XY= -0.34469880E+00         XZ= -0.30522624E+00
                YY=  0.12448334E+01         YZ=  0.10218931E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9212639E-02 Y=  0.1908601E-08 Z=  0.4611806E-02  Total=      0.0103025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255511E+02         XY= -0.46063198E-01         XZ= -0.17737848E-01
                YY= -0.10161240E+02         YZ=  0.23059029E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57544369E-02 Y= -0.79505061E-11 Z= -0.25180495E-07   Total=     0.00575444
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13535761E+01         XY=  0.54371549E-01         XZ=  0.48143313E-01
                YY=  0.12448329E+01         YZ= -0.23799434E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7016439E-02 Y=  0.1907662E-08 Z=  0.4611641E-02  Total=      0.0083963
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233549E+02         XY= -0.35082197E-01         XZ= -0.80132135E-02
                YY= -0.10161240E+02         YZ=  0.23058205E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45800833E-01 Y= -0.62539181E-11 Z= -0.13143378E-06   Total=     0.04580083
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21103448E+01         XY=  0.43275516E+00         XZ=  0.38319586E+00
                YY=  0.12448333E+01         YZ= -0.12419282E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2150681E-02 Y=  0.1906867E-08 Z=  0.4611435E-02  Total=      0.0050883
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184892E+02         XY= -0.10753406E-01         XZ=  0.13532965E-01
                YY= -0.10161240E+02         YZ=  0.23057173E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68421282E-01 Y= -0.60410582E-11 Z= -0.64606054E-07   Total=     0.06842128
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25378094E+01         XY=  0.64648743E+00         XZ=  0.57245408E+00
                YY=  0.12448340E+01         YZ= -0.61049583E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3533350E-02 Y=  0.1911057E-08 Z=  0.4611471E-02  Total=      0.0058095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128051E+02         XY=  0.17666747E-01         XZ=  0.38703985E-01
                YY= -0.10161240E+02         YZ=  0.23057351E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65009320E-01 Y= -0.68893097E-11 Z=  0.81954015E-07   Total=     0.06500932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24733312E+01         XY=  0.61424905E+00         XZ=  0.54390970E+00
                YY=  0.12448341E+01         YZ=  0.77428915E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7873035E-02 Y=  0.1910552E-08 Z=  0.4611698E-02  Total=      0.0091243
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084655E+02         XY=  0.39365172E-01         XZ=  0.57922774E-01
                YY= -0.10161240E+02         YZ=  0.23058490E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36863097E-01 Y= -0.78319880E-11 Z=  0.10450413E-06   Total=     0.03686310
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19414437E+01         XY=  0.34830579E+00         XZ=  0.30842161E+00
                YY=  0.12448334E+01         YZ=  0.98734904E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9217244E-02 Y=  0.1909613E-08 Z=  0.4611804E-02  Total=      0.0103066
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071213E+02         XY=  0.46086217E-01         XZ=  0.63875967E-01
                YY= -0.10161240E+02         YZ=  0.23059016E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53085334E-02 Y= -0.78614228E-11 Z= -0.29869973E-07   Total=     0.00530853
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11445162E+01         XY= -0.50158371E-01         XZ= -0.44413774E-01
                YY=  0.12448329E+01         YZ= -0.28230264E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7054541E-02 Y=  0.1907951E-08 Z=  0.4611640E-02  Total=      0.0084282
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092840E+02         XY=  0.35272705E-01         XZ=  0.54297995E-01
                YY= -0.10161240E+02         YZ=  0.23058199E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45460439E-01 Y= -0.64495537E-11 Z= -0.13731008E-06   Total=     0.04546044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38575668E+00         XY= -0.42953890E+00         XZ= -0.38035117E+00
                YY=  0.12448333E+01         YZ= -0.12974530E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2207773E-02 Y=  0.1907229E-08 Z=  0.4611432E-02  Total=      0.0051127
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141307E+02         XY=  0.11038864E-01         XZ=  0.32833802E-01
                YY= -0.10161240E+02         YZ=  0.23057159E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68315941E-01 Y= -0.38262701E-11 Z= -0.70016977E-07   Total=     0.06831594
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.46149643E-01         XY= -0.64549210E+00         XZ= -0.57157475E+00
                YY=  0.12448341E+01         YZ= -0.66160362E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3479002E-02 Y=  0.1912647E-08 Z=  0.4611465E-02  Total=      0.0057766
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198175E+02         XY= -0.17395012E-01         XZ=  0.76509305E-02
                YY= -0.10161240E+02         YZ=  0.23057321E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65179163E-01 Y= -0.87825652E-12 Z=  0.80186843E-07   Total=     0.06517916
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13125397E-01         XY= -0.61585383E+00         XZ= -0.54532996E+00
                YY=  0.12448342E+01         YZ=  0.75764133E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7842127E-02 Y=  0.1927239E-08 Z=  0.4611692E-02  Total=      0.0090976
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241806E+02         XY= -0.39210635E-01         XZ= -0.11669420E-01
                YY= -0.10161240E+02         YZ=  0.23058458E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37243571E-01 Y=  0.12811630E-11 Z=  0.10791155E-06   Total=     0.03724357
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54103059E+00         XY= -0.35190075E+00         XZ= -0.31160368E+00
                YY=  0.12448335E+01         YZ=  0.10196200E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9221557E-02 Y=  0.1928034E-08 Z=  0.4611800E-02  Total=      0.0103105
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255601E+02         XY= -0.46107786E-01         XZ= -0.17777556E-01
                YY= -0.10161240E+02         YZ=  0.23058999E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48621098E-02 Y=  0.18591286E-11 Z= -0.23562138E-07   Total=     0.00486211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13367135E+01         XY=  0.45940280E-01         XZ=  0.40677413E-01
                YY=  0.12448329E+01         YZ= -0.22262124E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7092462E-02 Y=  0.1929262E-08 Z=  0.4611639E-02  Total=      0.0084599
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234310E+02         XY= -0.35462312E-01         XZ= -0.83500701E-02
                YY= -0.10161240E+02         YZ=  0.23058195E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45117837E-01 Y=  0.77592322E-12 Z= -0.13235344E-06   Total=     0.04511784
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20974380E+01         XY=  0.42630178E+00         XZ=  0.37748139E+00
                YY=  0.12448333E+01         YZ= -0.12505588E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2264907E-02 Y=  0.1930418E-08 Z=  0.4611430E-02  Total=      0.0051376
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186034E+02         XY= -0.11324539E-01         XZ=  0.13026915E-01
                YY= -0.10161240E+02         YZ=  0.23057149E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68207431E-01 Y= -0.12919456E-11 Z= -0.68854119E-07   Total=     0.06820743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25337682E+01         XY=  0.64446682E+00         XZ=  0.57066477E+00
                YY=  0.12448341E+01         YZ= -0.65059417E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3424354E-02 Y=  0.1935475E-08 Z=  0.4611460E-02  Total=      0.0057438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129141E+02         XY=  0.17121767E-01         XZ=  0.38221068E-01
                YY= -0.10161240E+02         YZ=  0.23057298E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65345954E-01 Y= -0.32423260E-11 Z=  0.78223223E-07   Total=     0.06534595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24796927E+01         XY=  0.61742979E+00         XZ=  0.54672616E+00
                YY=  0.12448342E+01         YZ=  0.73906910E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7810713E-02 Y=  0.1948478E-08 Z=  0.4611687E-02  Total=      0.0090706
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085278E+02         XY=  0.39053561E-01         XZ=  0.57646541E-01
                YY= -0.10161240E+02         YZ=  0.23058431E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37622136E-01 Y= -0.40891261E-11 Z=  0.10440019E-06   Total=     0.03762214
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19557874E+01         XY=  0.35547767E+00         XZ=  0.31477227E+00
                YY=  0.12448335E+01         YZ=  0.98639836E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9225280E-02 Y=  0.1948478E-08 Z=  0.4611797E-02  Total=      0.0103138
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071132E+02         XY=  0.46126400E-01         XZ=  0.63911338E-01
                YY= -0.10161240E+02         YZ=  0.23058983E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44158696E-02 Y= -0.34492950E-11 Z= -0.28317169E-07   Total=     0.00441587
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11613851E+01         XY= -0.41723921E-01         XZ= -0.36945005E-01
                YY=  0.12448329E+01         YZ= -0.26759378E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7129853E-02 Y=  0.1948623E-08 Z=  0.4611638E-02  Total=      0.0084913
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092086E+02         XY=  0.35649264E-01         XZ=  0.54631317E-01
                YY= -0.10161240E+02         YZ=  0.23058186E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44773762E-01 Y= -0.17319217E-11 Z= -0.13847822E-06   Total=     0.04477376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39873300E+00         XY= -0.42305074E+00         XZ= -0.37460570E+00
                YY=  0.12448333E+01         YZ= -0.13084507E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2321682E-02 Y=  0.1950212E-08 Z=  0.4611427E-02  Total=      0.0051629
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140168E+02         XY=  0.11608410E-01         XZ=  0.33338049E-01
                YY= -0.10161240E+02         YZ=  0.23057132E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68096486E-01 Y=  0.65373814E-13 Z= -0.74667645E-07   Total=     0.06809649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.42002494E-01         XY= -0.64341854E+00         XZ= -0.56973825E+00
                YY=  0.12448341E+01         YZ= -0.70551318E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3369857E-02 Y=  0.1957580E-08 Z=  0.4611453E-02  Total=      0.0057115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197083E+02         XY= -0.16849288E-01         XZ=  0.81340721E-02
                YY= -0.10161240E+02         YZ=  0.23057265E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65510397E-01 Y=  0.85709560E-12 Z=  0.75981145E-07   Total=     0.06551040
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68660415E-02         XY= -0.61898354E+00         XZ= -0.54810075E+00
                YY=  0.12448342E+01         YZ=  0.71791834E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7779293E-02 Y=  0.1971740E-08 Z=  0.4611679E-02  Total=      0.0090435
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241178E+02         XY= -0.38896469E-01         XZ= -0.11391341E-01
                YY= -0.10161240E+02         YZ=  0.23058395E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37999438E-01 Y=  0.21692568E-13 Z=  0.10740660E-06   Total=     0.03799944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52674680E+00         XY= -0.35904265E+00         XZ= -0.31792715E+00
                YY=  0.12448335E+01         YZ=  0.10148391E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9228960E-02 Y=  0.1972318E-08 Z=  0.4611793E-02  Total=      0.0103171
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255675E+02         XY= -0.46144803E-01         XZ= -0.17810457E-01
                YY= -0.10161240E+02         YZ=  0.23058961E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39692280E-02 Y= -0.22704326E-11 Z= -0.22198531E-07   Total=     0.00396923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13198405E+01         XY=  0.37503770E-01         XZ=  0.33207543E-01
                YY=  0.12448330E+01         YZ= -0.20977079E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7167302E-02 Y=  0.1972173E-08 Z=  0.4611636E-02  Total=      0.0085228
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235058E+02         XY= -0.35836512E-01         XZ= -0.86815617E-02
                YY= -0.10161240E+02         YZ=  0.23058178E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44427686E-01 Y= -0.51155144E-11 Z= -0.13343421E-06   Total=     0.04442769
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20843961E+01         XY=  0.41978079E+00         XZ=  0.37170750E+00
                YY=  0.12448333E+01         YZ= -0.12608192E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2378725E-02 Y=  0.1972029E-08 Z=  0.4611424E-02  Total=      0.0051888
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187172E+02         XY= -0.11893626E-01         XZ=  0.12522817E-01
                YY= -0.10161240E+02         YZ=  0.23057119E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67982612E-01 Y= -0.73005667E-11 Z= -0.73141244E-07   Total=     0.06798261
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25295198E+01         XY=  0.64234260E+00         XZ=  0.56878389E+00
                YY=  0.12448341E+01         YZ= -0.69115159E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3314848E-02 Y=  0.1976219E-08 Z=  0.4611448E-02  Total=      0.0056792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130236E+02         XY=  0.16574237E-01         XZ=  0.37736034E-01
                YY= -0.10161240E+02         YZ=  0.23057237E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65672008E-01 Y= -0.78862648E-11 Z=  0.74648365E-07   Total=     0.06567201
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24858543E+01         XY=  0.62051055E+00         XZ=  0.54945397E+00
                YY=  0.12448343E+01         YZ=  0.70525274E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7747165E-02 Y=  0.1987922E-08 Z=  0.4611673E-02  Total=      0.0090159
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085913E+02         XY=  0.38735825E-01         XZ=  0.57365014E-01
                YY= -0.10161240E+02         YZ=  0.23058364E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38374986E-01 Y= -0.66645719E-11 Z=  0.10477757E-06   Total=     0.03837499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19700143E+01         XY=  0.36259106E+00         XZ=  0.32107075E+00
                YY=  0.12448336E+01         YZ=  0.98994244E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9231850E-02 Y=  0.1987777E-08 Z=  0.4611789E-02  Total=      0.0103197
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071067E+02         XY=  0.46159248E-01         XZ=  0.63940321E-01
                YY= -0.10161240E+02         YZ=  0.23058941E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35227073E-02 Y= -0.42665126E-11 Z= -0.25922405E-07   Total=     0.00352271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11782634E+01         XY= -0.33284760E-01         XZ= -0.29472678E-01
                YY=  0.12448330E+01         YZ= -0.24497359E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7204015E-02 Y=  0.1988066E-08 Z=  0.4611634E-02  Total=      0.0085537
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091345E+02         XY=  0.36020075E-01         XZ=  0.54959625E-01
                YY= -0.10161240E+02         YZ=  0.23058166E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44080174E-01 Y= -0.18604648E-11 Z= -0.13862568E-06   Total=     0.04408017
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41183993E+00         XY= -0.41649728E+00         XZ= -0.36880316E+00
                YY=  0.12448334E+01         YZ= -0.13098452E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2435190E-02 Y=  0.1990089E-08 Z=  0.4611420E-02  Total=      0.0052149
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139033E+02         XY=  0.12175947E-01         XZ=  0.33840563E-01
                YY= -0.10161240E+02         YZ=  0.23057099E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67866433E-01 Y= -0.58779787E-12 Z= -0.78432342E-07   Total=     0.06786643
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.37655068E-01         XY= -0.64124486E+00         XZ= -0.56781385E+00
                YY=  0.12448341E+01         YZ= -0.74108990E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3260227E-02 Y=  0.1997241E-08 Z=  0.4611441E-02  Total=      0.0056475
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195987E+02         XY= -0.16301138E-01         XZ=  0.86193768E-02
                YY= -0.10161240E+02         YZ=  0.23057201E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65831472E-01 Y= -0.10083622E-11 Z=  0.72322796E-07   Total=     0.06583147
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79866258E-03         XY= -0.62201726E+00         XZ= -0.55078725E+00
                YY=  0.12448343E+01         YZ=  0.68333641E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7715293E-02 Y=  0.2008871E-08 Z=  0.4611665E-02  Total=      0.0089885
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240538E+02         XY= -0.38576468E-01         XZ= -0.11108108E-01
                YY= -0.10161240E+02         YZ=  0.23058325E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38749528E-01 Y= -0.28245249E-11 Z=  0.10715791E-06   Total=     0.03874953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51257218E+00         XY= -0.36612998E+00         XZ= -0.32420280E+00
                YY=  0.12448336E+01         YZ=  0.10124656E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9234984E-02 Y=  0.2007210E-08 Z=  0.4611784E-02  Total=      0.0103225
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255735E+02         XY= -0.46174923E-01         XZ= -0.17837280E-01
                YY= -0.10161240E+02         YZ=  0.23058916E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30754882E-02 Y= -0.50235057E-11 Z= -0.20665492E-07   Total=     0.00307549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13029513E+01         XY=  0.29059152E-01         XZ=  0.25730249E-01
                YY=  0.12448330E+01         YZ= -0.19530868E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7241103E-02 Y=  0.2006560E-08 Z=  0.4611631E-02  Total=      0.0085849
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235796E+02         XY= -0.36205518E-01         XZ= -0.90084879E-02
                YY= -0.10161240E+02         YZ=  0.23058153E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43730341E-01 Y= -0.63698427E-11 Z= -0.13426705E-06   Total=     0.04373034
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20712182E+01         XY=  0.41319184E+00         XZ=  0.36587349E+00
                YY=  0.12448334E+01         YZ= -0.12686991E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2492268E-02 Y=  0.2005837E-08 Z=  0.4611417E-02  Total=      0.0052418
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188308E+02         XY= -0.12461342E-01         XZ=  0.12019908E-01
                YY= -0.10161240E+02         YZ=  0.23057082E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67747003E-01 Y= -0.60109995E-11 Z= -0.77054605E-07   Total=     0.06774700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25250675E+01         XY=  0.64011641E+00         XZ=  0.56681310E+00
                YY=  0.12448342E+01         YZ= -0.72811683E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3204721E-02 Y=  0.2010100E-08 Z=  0.4611435E-02  Total=      0.0056157
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131338E+02         XY=  0.16023602E-01         XZ=  0.37248247E-01
                YY= -0.10161240E+02         YZ=  0.23057171E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65987810E-01 Y= -0.39038470E-11 Z=  0.71567969E-07   Total=     0.06598781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24918221E+01         XY=  0.62349445E+00         XZ=  0.55209666E+00
                YY=  0.12448343E+01         YZ=  0.67618043E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7682316E-02 Y=  0.2022164E-08 Z=  0.4611659E-02  Total=      0.0089602
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086562E+02         XY=  0.38411578E-01         XZ=  0.57077747E-01
                YY= -0.10161240E+02         YZ=  0.23058291E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39122083E-01 Y= -0.85522210E-12 Z=  0.10576691E-06   Total=     0.03912208
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19841324E+01         XY=  0.36965011E+00         XZ=  0.32732194E+00
                YY=  0.12448336E+01         YZ=  0.99933891E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9236916E-02 Y=  0.2022742E-08 Z=  0.4611779E-02  Total=      0.0103242
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071016E+02         XY=  0.46184578E-01         XZ=  0.63962710E-01
                YY= -0.10161240E+02         YZ=  0.23058893E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26285256E-02 Y=  0.18457363E-11 Z= -0.22842210E-07   Total=     0.00262853
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11951610E+01         XY= -0.24835967E-01         XZ= -0.21990911E-01
                YY=  0.12448330E+01         YZ= -0.21581871E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7277037E-02 Y=  0.2023103E-08 Z=  0.4611628E-02  Total=      0.0086152
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090615E+02         XY=  0.36385184E-01         XZ=  0.55282986E-01
                YY= -0.10161240E+02         YZ=  0.23058140E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43379081E-01 Y=  0.30299778E-11 Z= -0.13812988E-06   Total=     0.04337908
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42508867E+00         XY= -0.40987291E+00         XZ= -0.36293696E+00
                YY=  0.12448334E+01         YZ= -0.13051194E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2548356E-02 Y=  0.2024475E-08 Z=  0.4611413E-02  Total=      0.0052687
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137901E+02         XY=  0.12741776E-01         XZ=  0.34341699E-01
                YY= -0.10161240E+02         YZ=  0.23057061E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67625137E-01 Y=  0.21983220E-11 Z= -0.81678658E-07   Total=     0.06762514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.33095205E-01         XY= -0.63896494E+00         XZ= -0.56579469E+00
                YY=  0.12448342E+01         YZ= -0.77173941E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3150000E-02 Y=  0.2030977E-08 Z=  0.4611427E-02  Total=      0.0055846
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194885E+02         XY= -0.15750002E-01         XZ=  0.91074853E-02
                YY= -0.10161240E+02         YZ=  0.23057134E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66141744E-01 Y= -0.24282127E-12 Z=  0.69165158E-07   Total=     0.06614174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.50645835E-02         XY= -0.62494891E+00         XZ= -0.55338291E+00
                YY=  0.12448343E+01         YZ=  0.65350798E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7649966E-02 Y=  0.2043258E-08 Z=  0.4611650E-02  Total=      0.0089325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239885E+02         XY= -0.38249832E-01         XZ= -0.10818827E-01
                YY= -0.10161240E+02         YZ=  0.23058250E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39493287E-01 Y= -0.31718984E-11 Z=  0.10768539E-06   Total=     0.03949329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49851719E+00         XY= -0.37315749E+00         XZ= -0.33042533E+00
                YY=  0.12448336E+01         YZ=  0.10174472E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9239433E-02 Y=  0.2042463E-08 Z=  0.4611774E-02  Total=      0.0103265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255780E+02         XY= -0.46197166E-01         XZ= -0.17856959E-01
                YY= -0.10161240E+02         YZ=  0.23058866E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21812444E-02 Y= -0.52802049E-11 Z= -0.17818309E-07   Total=     0.00218124
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12860525E+01         XY=  0.20609773E-01         XZ=  0.18248587E-01
                YY=  0.12448331E+01         YZ= -0.16840831E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7313655E-02 Y=  0.2042030E-08 Z=  0.4611626E-02  Total=      0.0086462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236522E+02         XY= -0.36568276E-01         XZ= -0.93297232E-02
                YY= -0.10161240E+02         YZ=  0.23058126E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43025856E-01 Y= -0.56874490E-11 Z= -0.13322899E-06   Total=     0.04302586
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20579053E+01         XY=  0.40653543E+00         XZ=  0.35997933E+00
                YY=  0.12448334E+01         YZ= -0.12588846E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2605338E-02 Y=  0.2041524E-08 Z=  0.4611409E-02  Total=      0.0052965
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189438E+02         XY= -0.13026691E-01         XZ=  0.11519231E-01
                YY= -0.10161240E+02         YZ=  0.23057043E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67500310E-01 Y= -0.43542059E-11 Z= -0.78743089E-07   Total=     0.06750031
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25204057E+01         XY=  0.63778550E+00         XZ=  0.56474894E+00
                YY=  0.12448342E+01         YZ= -0.74405645E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3094133E-02 Y=  0.2046292E-08 Z=  0.4611421E-02  Total=      0.0055533
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132444E+02         XY=  0.15470662E-01         XZ=  0.36758523E-01
                YY= -0.10161240E+02         YZ=  0.23057103E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66292749E-01 Y= -0.20981537E-11 Z=  0.70857766E-07   Total=     0.06629275
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24975847E+01         XY=  0.62637570E+00         XZ=  0.55464769E+00
                YY=  0.12448343E+01         YZ=  0.66948542E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7616264E-02 Y=  0.2058501E-08 Z=  0.4611644E-02  Total=      0.0089036
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087223E+02         XY=  0.38081316E-01         XZ=  0.56785225E-01
                YY= -0.10161240E+02         YZ=  0.23058217E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39862608E-01 Y= -0.20732414E-12 Z=  0.10920665E-06   Total=     0.03986261
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19981263E+01         XY=  0.37664706E+00         XZ=  0.33351736E+00
                YY=  0.12448337E+01         YZ=  0.10318455E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9240507E-02 Y=  0.2057056E-08 Z=  0.4611769E-02  Total=      0.0103274
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070980E+02         XY=  0.46202532E-01         XZ=  0.63978605E-01
                YY= -0.10161240E+02         YZ=  0.23058844E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17341850E-02 Y=  0.16941769E-12 Z= -0.17219180E-07   Total=     0.00173419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12120616E+01         XY= -0.16385674E-01         XZ= -0.14508541E-01
                YY=  0.12448331E+01         YZ= -0.16270233E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7348880E-02 Y=  0.2055972E-08 Z=  0.4611623E-02  Total=      0.0086760
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089896E+02         XY=  0.36744397E-01         XZ=  0.55601137E-01
                YY= -0.10161240E+02         YZ=  0.23058115E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42671207E-01 Y= -0.14306530E-11 Z= -0.13505903E-06   Total=     0.04267121
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43846552E+00         XY= -0.40318448E+00         XZ= -0.35701461E+00
                YY=  0.12448334E+01         YZ= -0.12761407E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2661091E-02 Y=  0.2057200E-08 Z=  0.4611406E-02  Total=      0.0053241
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136774E+02         XY=  0.13305452E-01         XZ=  0.34840922E-01
                YY= -0.10161240E+02         YZ=  0.23057026E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67373049E-01 Y= -0.45553099E-11 Z= -0.82469665E-07   Total=     0.06737305
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.28331419E-01         XY= -0.63658306E+00         XZ= -0.56368561E+00
                YY=  0.12448342E+01         YZ= -0.77926897E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3039289E-02 Y=  0.2064063E-08 Z=  0.4611414E-02  Total=      0.0055229
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193778E+02         XY= -0.15196447E-01         XZ=  0.95977184E-02
                YY= -0.10161240E+02         YZ=  0.23057070E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66441327E-01 Y= -0.80322967E-11 Z=  0.68222266E-07   Total=     0.06644133
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.10725847E-01         XY= -0.62777956E+00         XZ= -0.55588926E+00
                YY=  0.12448344E+01         YZ=  0.64453477E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7583423E-02 Y=  0.2075911E-08 Z=  0.4611636E-02  Total=      0.0088756
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239219E+02         XY= -0.37917117E-01         XZ= -0.10524181E-01
                YY= -0.10161240E+02         YZ=  0.23058180E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40230513E-01 Y= -0.10496581E-10 Z=  0.11017924E-06   Total=     0.04023051
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48458566E+00         XY= -0.38012326E+00         XZ= -0.33659306E+00
                YY=  0.12448337E+01         YZ=  0.10409505E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9242393E-02 Y=  0.2075477E-08 Z=  0.4611764E-02  Total=      0.0103291
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255809E+02         XY= -0.46211967E-01         XZ= -0.17870055E-01
                YY= -0.10161240E+02         YZ=  0.23058820E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12869282E-02 Y= -0.11006159E-10 Z= -0.13215798E-07   Total=     0.00128693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12691523E+01         XY=  0.12159709E-01         XZ=  0.10766678E-01
                YY=  0.12448331E+01         YZ= -0.12496780E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7385004E-02 Y=  0.2075044E-08 Z=  0.4611621E-02  Total=      0.0087066
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237235E+02         XY= -0.36925024E-01         XZ= -0.96456274E-02
                YY= -0.10161240E+02         YZ=  0.23058103E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42314777E-01 Y= -0.94641498E-11 Z= -0.13067069E-06   Total=     0.04231478
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20444679E+01         XY=  0.39981670E+00         XZ=  0.35403053E+00
                YY=  0.12448334E+01         YZ= -0.12347428E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2717938E-02 Y=  0.2074755E-08 Z=  0.4611403E-02  Total=      0.0053528
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190564E+02         XY= -0.13589692E-01         XZ=  0.11020668E-01
                YY= -0.10161240E+02         YZ=  0.23057011E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67243079E-01 Y= -0.66523387E-11 Z= -0.79216556E-07   Total=     0.06724308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25155448E+01         XY=  0.63535502E+00         XZ=  0.56259728E+00
                YY=  0.12448342E+01         YZ= -0.74854832E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2983121E-02 Y=  0.2079812E-08 Z=  0.4611409E-02  Total=      0.0054922
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133554E+02         XY=  0.14915603E-01         XZ=  0.36266985E-01
                YY= -0.10161240E+02         YZ=  0.23057043E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66587302E-01 Y= -0.38633346E-11 Z=  0.71051548E-07   Total=     0.06658730
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25031510E+01         XY=  0.62915883E+00         XZ=  0.55711254E+00
                YY=  0.12448344E+01         YZ=  0.67130281E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7549080E-02 Y=  0.2090576E-08 Z=  0.4611630E-02  Total=      0.0088462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087894E+02         XY=  0.37745399E-01         XZ=  0.56487782E-01
                YY= -0.10161240E+02         YZ=  0.23058150E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40596939E-01 Y= -0.23034981E-11 Z=  0.11332744E-06   Total=     0.04059694
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20120031E+01         XY=  0.38358548E+00         XZ=  0.33966157E+00
                YY=  0.12448337E+01         YZ=  0.10707653E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242721E-02 Y=  0.2089998E-08 Z=  0.4611761E-02  Total=      0.0103294
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070958E+02         XY=  0.46213603E-01         XZ=  0.63988514E-01
                YY= -0.10161240E+02         YZ=  0.23058803E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.83941275E-03 Y= -0.25408655E-11 Z= -0.11074125E-07   Total=     0.00083941
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12289703E+01         XY= -0.79313011E-02         XZ= -0.70220699E-02
                YY=  0.12448331E+01         YZ= -0.10466066E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7419662E-02 Y=  0.2091298E-08 Z=  0.4611620E-02  Total=      0.0087360
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089189E+02         XY=  0.37098306E-01         XZ=  0.55914717E-01
                YY= -0.10161240E+02         YZ=  0.23058098E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41956380E-01 Y= -0.42502330E-11 Z= -0.13169546E-06   Total=     0.04195638
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45197379E+00         XY= -0.39643034E+00         XZ= -0.35103382E+00
                YY=  0.12448334E+01         YZ= -0.12443808E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2773526E-02 Y=  0.2093321E-08 Z=  0.4611400E-02  Total=      0.0053812
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135650E+02         XY=  0.13867627E-01         XZ=  0.35338949E-01
                YY= -0.10161240E+02         YZ=  0.23057000E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67110102E-01 Y= -0.63709385E-11 Z= -0.83330646E-07   Total=     0.06711010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.23362407E-01         XY= -0.63409856E+00         XZ= -0.56148566E+00
                YY=  0.12448342E+01         YZ= -0.78741665E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2927960E-02 Y=  0.2100617E-08 Z=  0.4611403E-02  Total=      0.0054624
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192665E+02         XY= -0.14639803E-01         XZ=  0.10090815E-01
                YY= -0.10161240E+02         YZ=  0.23057015E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66730285E-01 Y= -0.76018607E-11 Z=  0.66840300E-07   Total=     0.06673028
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.16186304E-01         XY= -0.63050981E+00         XZ= -0.55830699E+00
                YY=  0.12448344E+01         YZ=  0.63148339E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7515538E-02 Y=  0.2113259E-08 Z=  0.4611624E-02  Total=      0.0088176
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238541E+02         XY= -0.37577691E-01         XZ= -0.10223484E-01
                YY= -0.10161240E+02         YZ=  0.23058117E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40961436E-01 Y= -0.70026302E-11 Z=  0.11205448E-06   Total=     0.04096144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47077324E+00         XY= -0.38702948E+00         XZ= -0.34270859E+00
                YY=  0.12448337E+01         YZ=  0.10587008E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9243760E-02 Y=  0.2113043E-08 Z=  0.4611757E-02  Total=      0.0103303
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255823E+02         XY= -0.46218804E-01         XZ= -0.17876017E-01
                YY= -0.10161240E+02         YZ=  0.23058782E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39211498E-03 Y= -0.44255814E-11 Z= -0.91881504E-08   Total=     0.00039211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12522428E+01         XY=  0.37049496E-02         XZ=  0.32799039E-02
                YY=  0.12448331E+01         YZ= -0.86854235E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7455086E-02 Y=  0.2112609E-08 Z=  0.4611618E-02  Total=      0.0087661
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237936E+02         XY= -0.37275434E-01         XZ= -0.99558687E-02
                YY= -0.10161240E+02         YZ=  0.23058089E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41596489E-01 Y= -0.58282715E-12 Z= -0.12860256E-06   Total=     0.04159649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20308942E+01         XY=  0.39302986E+00         XZ=  0.34802062E+00
                YY=  0.12448334E+01         YZ= -0.12151246E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2830055E-02 Y=  0.2112898E-08 Z=  0.4611398E-02  Total=      0.0054106
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191686E+02         XY= -0.14150276E-01         XZ=  0.10524259E-01
                YY= -0.10161240E+02         YZ=  0.23056988E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66974563E-01 Y=  0.32774617E-11 Z= -0.80255821E-07   Total=     0.06697456
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25104706E+01         XY=  0.63281791E+00         XZ=  0.56035042E+00
                YY=  0.12448342E+01         YZ= -0.75828154E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2871639E-02 Y=  0.2118388E-08 Z=  0.4611399E-02  Total=      0.0054324
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134669E+02         XY=  0.14358193E-01         XZ=  0.35773346E-01
                YY= -0.10161240E+02         YZ=  0.23056991E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66870685E-01 Y=  0.59331044E-11 Z=  0.70435069E-07   Total=     0.06687068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25085061E+01         XY=  0.63183640E+00         XZ=  0.55948324E+00
                YY=  0.12448344E+01         YZ=  0.66556367E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7480660E-02 Y=  0.2128719E-08 Z=  0.4611618E-02  Total=      0.0087879
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088579E+02         XY=  0.37403296E-01         XZ=  0.56184816E-01
                YY= -0.10161240E+02         YZ=  0.23058090E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41324378E-01 Y=  0.67247065E-11 Z=  0.11639064E-06   Total=     0.04132438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20257498E+01         XY=  0.39045879E+00         XZ=  0.34574765E+00
                YY=  0.12448337E+01         YZ=  0.10997882E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9243404E-02 Y=  0.2128574E-08 Z=  0.4611754E-02  Total=      0.0103300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070951E+02         XY=  0.46217020E-01         XZ=  0.63991584E-01
                YY= -0.10161240E+02         YZ=  0.23058768E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55312634E-04 Y=  0.58253907E-11 Z= -0.60901058E-08   Total=     0.00005531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12458781E+01         XY=  0.52262871E-03         XZ=  0.46375865E-03
                YY=  0.12448331E+01         YZ= -0.57494019E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7489201E-02 Y=  0.2129441E-08 Z=  0.4611618E-02  Total=      0.0087952
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088493E+02         XY=  0.37446001E-01         XZ=  0.56222727E-01
                YY= -0.10161240E+02         YZ=  0.23058088E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41234766E-01 Y=  0.41260565E-11 Z= -0.12943882E-06   Total=     0.04123477
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46561028E+00         XY= -0.38961207E+00         XZ= -0.34499623E+00
                YY=  0.12448334E+01         YZ= -0.12229840E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2885477E-02 Y=  0.2131897E-08 Z=  0.4611397E-02  Total=      0.0054398
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134530E+02         XY=  0.14427385E-01         XZ=  0.35834774E-01
                YY= -0.10161240E+02         YZ=  0.23056981E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66836115E-01 Y=  0.27972445E-11 Z= -0.85132106E-07   Total=     0.06683612
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.18184801E-01         XY= -0.63150977E+00         XZ= -0.55919311E+00
                YY=  0.12448342E+01         YZ= -0.80435678E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2816172E-02 Y=  0.2139988E-08 Z=  0.4611394E-02  Total=      0.0054033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191547E+02         XY= -0.14080861E-01         XZ=  0.10585898E-01
                YY= -0.10161240E+02         YZ=  0.23056968E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67008120E-01 Y=  0.27400592E-11 Z=  0.64793302E-07   Total=     0.06700812
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.21436601E-01         XY= -0.63313498E+00         XZ= -0.56063121E+00
                YY=  0.12448344E+01         YZ=  0.61223294E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7446422E-02 Y=  0.2152631E-08 Z=  0.4611613E-02  Total=      0.0087588
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237850E+02         XY= -0.37232112E-01         XZ= -0.99173613E-02
                YY= -0.10161240E+02         YZ=  0.23058061E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41685330E-01 Y=  0.41831288E-11 Z=  0.11364383E-06   Total=     0.04168533
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45709361E+00         XY= -0.39386929E+00         XZ= -0.34876472E+00
                YY=  0.12448337E+01         YZ=  0.10738159E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9243586E-02 Y=  0.2153570E-08 Z=  0.4611750E-02  Total=      0.0103302
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255821E+02         XY= -0.46217930E-01         XZ= -0.17875147E-01
                YY= -0.10161240E+02         YZ=  0.23058750E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50236334E-03 Y=  0.66053294E-11 Z= -0.50806064E-08   Total=     0.00050236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12353396E+01         XY= -0.47466456E-02         XZ= -0.42034133E-02
                YY=  0.12448331E+01         YZ= -0.47947030E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7523887E-02 Y=  0.2155376E-08 Z=  0.4611617E-02  Total=      0.0088247
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238624E+02         XY= -0.37619435E-01         XZ= -0.10260404E-01
                YY= -0.10161240E+02         YZ=  0.23058082E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40871803E-01 Y=  0.90081428E-11 Z= -0.12629580E-06   Total=     0.04087180
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20171996E+01         XY=  0.38618257E+00         XZ=  0.34195781E+00
                YY=  0.12448334E+01         YZ= -0.11932443E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2941617E-02 Y=  0.2156532E-08 Z=  0.4611395E-02  Total=      0.0054697
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192801E+02         XY= -0.14708086E-01         XZ=  0.10030364E-01
                YY= -0.10161240E+02         YZ=  0.23056972E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66695442E-01 Y=  0.10395656E-10 Z= -0.81177617E-07   Total=     0.06669544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25051959E+01         XY=  0.63018060E+00         XZ=  0.55801532E+00
                YY=  0.12448342E+01         YZ= -0.76692732E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2759803E-02 Y=  0.2161877E-08 Z=  0.4611390E-02  Total=      0.0053741
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135787E+02         XY=  0.13799012E-01         XZ=  0.35278214E-01
                YY= -0.10161240E+02         YZ=  0.23056947E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67143374E-01 Y=  0.10231172E-10 Z=  0.69702659E-07   Total=     0.06714337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25136592E+01         XY=  0.63441294E+00         XZ=  0.56176479E+00
                YY=  0.12448344E+01         YZ=  0.65868371E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7411145E-02 Y=  0.2172786E-08 Z=  0.4611608E-02  Total=      0.0087288
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089274E+02         XY=  0.37055721E-01         XZ=  0.55877089E-01
                YY= -0.10161240E+02         YZ=  0.23058038E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42045173E-01 Y=  0.86574153E-11 Z=  0.11926016E-06   Total=     0.04204517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20393708E+01         XY=  0.39726931E+00         XZ=  0.35177822E+00
                YY=  0.12448337E+01         YZ=  0.11269215E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242708E-02 Y=  0.2173147E-08 Z=  0.4611748E-02  Total=      0.0103294
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070958E+02         XY=  0.46213536E-01         XZ=  0.63988626E-01
                YY= -0.10161240E+02         YZ=  0.23058740E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.95001067E-03 Y=  0.63907132E-11 Z= -0.11157765E-08   Total=     0.00095001
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12627854E+01         XY=  0.89763000E-02         XZ=  0.79492203E-02
                YY=  0.12448331E+01         YZ= -0.10484822E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7557639E-02 Y=  0.2173291E-08 Z=  0.4611617E-02  Total=      0.0088535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087809E+02         XY=  0.37788191E-01         XZ=  0.56525937E-01
                YY= -0.10161240E+02         YZ=  0.23058085E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40506542E-01 Y=  0.43565889E-11 Z= -0.12688364E-06   Total=     0.04050654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47937168E+00         XY= -0.38273135E+00         XZ= -0.33890368E+00
                YY=  0.12448334E+01         YZ= -0.11988357E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2997065E-02 Y=  0.2174086E-08 Z=  0.4611394E-02  Total=      0.0054998
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133415E+02         XY=  0.14985323E-01         XZ=  0.36329046E-01
                YY= -0.10161240E+02         YZ=  0.23056970E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66551415E-01 Y=  0.32564736E-11 Z= -0.86404637E-07   Total=     0.06655142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.12804767E-01         XY= -0.62881974E+00         XZ= -0.55681140E+00
                YY=  0.12448341E+01         YZ= -0.81637357E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2703837E-02 Y=  0.2179793E-08 Z=  0.4611386E-02  Total=      0.0053456
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190424E+02         XY= -0.13519185E-01         XZ=  0.11083445E-01
                YY= -0.10161240E+02         YZ=  0.23056928E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67275260E-01 Y=  0.32753280E-11 Z=  0.63365875E-07   Total=     0.06727526
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.26484809E-01         XY= -0.63565908E+00         XZ= -0.56286650E+00
                YY=  0.12448344E+01         YZ=  0.59875284E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7376025E-02 Y=  0.2190485E-08 Z=  0.4611603E-02  Total=      0.0086990
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237146E+02         XY= -0.36880126E-01         XZ= -0.96055477E-02
                YY= -0.10161240E+02         YZ=  0.23058012E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42402674E-01 Y=  0.40602084E-11 Z=  0.11587434E-06   Total=     0.04240267
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44353775E+00         XY= -0.40064721E+00         XZ= -0.35476660E+00
                YY=  0.12448337E+01         YZ=  0.10948925E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9241857E-02 Y=  0.2191279E-08 Z=  0.4611746E-02  Total=      0.0103286
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255804E+02         XY= -0.46209287E-01         XZ= -0.17867401E-01
                YY= -0.10161240E+02         YZ=  0.23058726E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13969875E-02 Y=  0.49573075E-11 Z= -0.33670415E-09   Total=     0.00139699
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12184335E+01         XY= -0.13199619E-01         XZ= -0.11688435E-01
                YY=  0.12448331E+01         YZ= -0.31353382E-08         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7591430E-02 Y=  0.2192435E-08 Z=  0.4611617E-02  Total=      0.0088824
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239300E+02         XY= -0.37957154E-01         XZ= -0.10559397E-01
                YY= -0.10161240E+02         YZ=  0.23058082E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40140278E-01 Y=  0.53714488E-11 Z= -0.12343492E-06   Total=     0.04014028
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20033757E+01         XY=  0.37927066E+00         XZ=  0.33583742E+00
                YY=  0.12448333E+01         YZ= -0.11662414E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3052681E-02 Y=  0.2192724E-08 Z=  0.4611394E-02  Total=      0.0055303
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193912E+02         XY= -0.15263405E-01         XZ=  0.95386434E-02
                YY= -0.10161240E+02         YZ=  0.23056966E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66405353E-01 Y=  0.50582490E-11 Z= -0.81735221E-07   Total=     0.06640535
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24997140E+01         XY=  0.62743965E+00         XZ=  0.55558828E+00
                YY=  0.12448341E+01         YZ= -0.77223889E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2647531E-02 Y=  0.2197564E-08 Z=  0.4611383E-02  Total=      0.0053174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136910E+02         XY=  0.13237653E-01         XZ=  0.34781118E-01
                YY= -0.10161240E+02         YZ=  0.23056912E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67405116E-01 Y=  0.42068668E-11 Z=  0.69138962E-07   Total=     0.06740512
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25186054E+01         XY=  0.63688604E+00         XZ=  0.56395473E+00
                YY=  0.12448344E+01         YZ=  0.65330860E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7340439E-02 Y=  0.2208545E-08 Z=  0.4611599E-02  Total=      0.0086688
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089981E+02         XY=  0.36702191E-01         XZ=  0.55564053E-01
                YY= -0.10161240E+02         YZ=  0.23057994E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42759194E-01 Y=  0.32883328E-11 Z=  0.12225696E-06   Total=     0.04275919
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20528638E+01         XY=  0.40401583E+00         XZ=  0.35775227E+00
                YY=  0.12448337E+01         YZ=  0.11551934E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9240529E-02 Y=  0.2209773E-08 Z=  0.4611745E-02  Total=      0.0103274
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070980E+02         XY=  0.46202645E-01         XZ=  0.63979081E-01
                YY= -0.10161240E+02         YZ=  0.23058721E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18446825E-02 Y=  0.27685978E-11 Z=  0.41353659E-08   Total=     0.00184468
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12796922E+01         XY=  0.17429723E-01         XZ=  0.15434742E-01
                YY=  0.12448331E+01         YZ=  0.39101802E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7624880E-02 Y=  0.2210712E-08 Z=  0.4611618E-02  Total=      0.0089110
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087137E+02         XY=  0.38124397E-01         XZ=  0.56823834E-01
                YY= -0.10161240E+02         YZ=  0.23058090E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39771585E-01 Y=  0.28500817E-11 Z= -0.12384554E-06   Total=     0.03977159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49326028E+00         XY= -0.37578702E+00         XZ= -0.33275443E+00
                YY=  0.12448333E+01         YZ= -0.11701419E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3108207E-02 Y=  0.2212157E-08 Z=  0.4611394E-02  Total=      0.0055611
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132303E+02         XY=  0.15541032E-01         XZ=  0.36821349E-01
                YY= -0.10161240E+02         YZ=  0.23056969E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66255782E-01 Y=  0.33823222E-11 Z= -0.87087850E-07   Total=     0.06625578
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.72181329E-02         XY= -0.62602642E+00         XZ= -0.55433781E+00
                YY=  0.12448341E+01         YZ= -0.82282789E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2591014E-02 Y=  0.2218586E-08 Z=  0.4611380E-02  Total=      0.0052894
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189295E+02         XY= -0.12955071E-01         XZ=  0.11583168E-01
                YY= -0.10161240E+02         YZ=  0.23056898E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67531418E-01 Y=  0.39822640E-11 Z=  0.62507260E-07   Total=     0.06753142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.31325497E-01         XY= -0.63807943E+00         XZ= -0.56500952E+00
                YY=  0.12448344E+01         YZ=  0.59064575E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7304380E-02 Y=  0.2229278E-08 Z=  0.4611595E-02  Total=      0.0086383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236429E+02         XY= -0.36521903E-01         XZ= -0.92881780E-02
                YY= -0.10161240E+02         YZ=  0.23057973E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43113158E-01 Y=  0.42866028E-11 Z=  0.11859263E-06   Total=     0.04311316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43011152E+00         XY= -0.40736031E+00         XZ= -0.36071076E+00
                YY=  0.12448337E+01         YZ=  0.11205779E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9238582E-02 Y=  0.2230723E-08 Z=  0.4611742E-02  Total=      0.0103257
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255771E+02         XY= -0.46192912E-01         XZ= -0.17852765E-01
                YY= -0.10161240E+02         YZ=  0.23058710E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22914785E-02 Y=  0.41853403E-11 Z=  0.47688947E-08   Total=     0.00229148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12015301E+01         XY= -0.21651334E-01         XZ= -0.19172115E-01
                YY=  0.12448331E+01         YZ=  0.45098488E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7657704E-02 Y=  0.2232384E-08 Z=  0.4611619E-02  Total=      0.0089391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239963E+02         XY= -0.38288521E-01         XZ= -0.10852713E-01
                YY= -0.10161240E+02         YZ=  0.23058092E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39402107E-01 Y=  0.38988351E-11 Z= -0.12044203E-06   Total=     0.03940211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19894262E+01         XY=  0.37229595E+00         XZ=  0.32966153E+00
                YY=  0.12448333E+01         YZ= -0.11379757E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3163220E-02 Y=  0.2232095E-08 Z=  0.4611394E-02  Total=      0.0055920
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195018E+02         XY= -0.15816101E-01         XZ=  0.90492978E-02
                YY= -0.10161240E+02         YZ=  0.23056969E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66104350E-01 Y=  0.38460312E-11 Z= -0.82478255E-07   Total=     0.06610435
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24940259E+01         XY=  0.62459559E+00         XZ=  0.55306987E+00
                YY=  0.12448341E+01         YZ= -0.77927035E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2534850E-02 Y=  0.2237297E-08 Z=  0.4611378E-02  Total=      0.0052622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138037E+02         XY=  0.12674248E-01         XZ=  0.34282257E-01
                YY= -0.10161240E+02         YZ=  0.23056887E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67655793E-01 Y=  0.43750186E-11 Z=  0.68177297E-07   Total=     0.06765579
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25233426E+01         XY=  0.63925460E+00         XZ=  0.56605192E+00
                YY=  0.12448343E+01         YZ=  0.64422286E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7268554E-02 Y=  0.2248061E-08 Z=  0.4611592E-02  Total=      0.0086081
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090700E+02         XY=  0.36342768E-01         XZ=  0.55245835E-01
                YY= -0.10161240E+02         YZ=  0.23057958E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43466155E-01 Y=  0.55065298E-11 Z=  0.12498344E-06   Total=     0.04346615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20662234E+01         XY=  0.41069564E+00         XZ=  0.36366694E+00
                YY=  0.12448337E+01         YZ=  0.11809726E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9236855E-02 Y=  0.2248277E-08 Z=  0.4611742E-02  Total=      0.0103241
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071017E+02         XY=  0.46184273E-01         XZ=  0.63962934E-01
                YY= -0.10161240E+02         YZ=  0.23058709E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27389123E-02 Y=  0.68482997E-11 Z=  0.96085246E-08   Total=     0.00273891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12965906E+01         XY=  0.25878971E-01         XZ=  0.22916184E-01
                YY=  0.12448331E+01         YZ=  0.90848677E-07         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7690875E-02 Y=  0.2248711E-08 Z=  0.4611621E-02  Total=      0.0089675
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086477E+02         XY=  0.38454371E-01         XZ=  0.57116219E-01
                YY= -0.10161240E+02         YZ=  0.23058104E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39030363E-01 Y=  0.77455722E-11 Z= -0.11998591E-06   Total=     0.03903036
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50726730E+00         XY= -0.36878349E+00         XZ= -0.32655318E+00
                YY=  0.12448333E+01         YZ= -0.11336341E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3218818E-02 Y=  0.2250445E-08 Z=  0.4611396E-02  Total=      0.0056237
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131197E+02         XY=  0.16094090E-01         XZ=  0.37311293E-01
                YY= -0.10161240E+02         YZ=  0.23056977E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65949636E-01 Y=  0.76108733E-11 Z= -0.86569052E-07   Total=     0.06594964
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.14328273E-02         XY= -0.62313376E+00         XZ= -0.55177667E+00
                YY=  0.12448341E+01         YZ= -0.81789207E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2477818E-02 Y=  0.2257813E-08 Z=  0.4611376E-02  Total=      0.0052349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188164E+02         XY= -0.12389090E-01         XZ=  0.12084519E-01
                YY= -0.10161240E+02         YZ=  0.23056878E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67776881E-01 Y=  0.62670150E-11 Z=  0.62882267E-07   Total=     0.06777688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.35964067E-01         XY= -0.64039872E+00         XZ= -0.56706340E+00
                YY=  0.12448343E+01         YZ=  0.59420671E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7231619E-02 Y=  0.2269516E-08 Z=  0.4611589E-02  Total=      0.0085769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235702E+02         XY= -0.36158096E-01         XZ= -0.89659024E-02
                YY= -0.10161240E+02         YZ=  0.23057943E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43816881E-01 Y=  0.41148642E-11 Z=  0.12233494E-06   Total=     0.04381688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41681307E+00         XY= -0.41400953E+00         XZ= -0.36659859E+00
                YY=  0.12448337E+01         YZ=  0.11559349E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9233894E-02 Y=  0.2269444E-08 Z=  0.4611741E-02  Total=      0.0103215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255725E+02         XY= -0.46169470E-01         XZ= -0.17831918E-01
                YY= -0.10161240E+02         YZ=  0.23058704E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31857429E-02 Y=  0.20126927E-11 Z=  0.10622199E-07   Total=     0.00318574
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11846309E+01         XY= -0.30100908E-01         XZ= -0.26654008E-01
                YY=  0.12448331E+01         YZ=  0.10038507E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7722829E-02 Y=  0.2268794E-08 Z=  0.4611623E-02  Total=      0.0089950
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240614E+02         XY= -0.38614146E-01         XZ= -0.11140995E-01
                YY= -0.10161240E+02         YZ=  0.23058112E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38657530E-01 Y=  0.90051614E-12 Z= -0.11694318E-06   Total=     0.03865753
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19753557E+01         XY=  0.36526073E+00         XZ=  0.32343207E+00
                YY=  0.12448333E+01         YZ= -0.11049421E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3273337E-02 Y=  0.2268866E-08 Z=  0.4611397E-02  Total=      0.0056551
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196119E+02         XY= -0.16366689E-01         XZ=  0.85617723E-02
                YY= -0.10161239E+02         YZ=  0.23056983E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65792749E-01 Y=  0.13341364E-11 Z= -0.82873583E-07   Total=     0.06579275
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24881375E+01         XY=  0.62165138E+00         XZ=  0.55046295E+00
                YY=  0.12448340E+01         YZ= -0.78302718E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2421679E-02 Y=  0.2274212E-08 Z=  0.4611375E-02  Total=      0.0052086
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139169E+02         XY=  0.12108391E-01         XZ=  0.33781185E-01
                YY= -0.10161239E+02         YZ=  0.23056872E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67895722E-01 Y=  0.31592136E-11 Z=  0.67540999E-07   Total=     0.06789572
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25278766E+01         XY=  0.64152160E+00         XZ=  0.56805941E+00
                YY=  0.12448343E+01         YZ=  0.63820003E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7195428E-02 Y=  0.2284398E-08 Z=  0.4611587E-02  Total=      0.0085464
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091431E+02         XY=  0.35977140E-01         XZ=  0.54922093E-01
                YY= -0.10161240E+02         YZ=  0.23057933E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44166319E-01 Y=  0.55063528E-11 Z=  0.12814573E-06   Total=     0.04416632
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20794546E+01         XY=  0.41731124E+00         XZ=  0.36952503E+00
                YY=  0.12448337E+01         YZ=  0.12108513E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9231637E-02 Y=  0.2285192E-08 Z=  0.4611742E-02  Total=      0.0103195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071069E+02         XY=  0.46158185E-01         XZ=  0.63939936E-01
                YY= -0.10161240E+02         YZ=  0.23058706E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36329032E-02 Y=  0.71427204E-11 Z=  0.15606761E-07   Total=     0.00363290
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13134846E+01         XY=  0.34325960E-01         XZ=  0.30395893E-01
                YY=  0.12448331E+01         YZ=  0.14752554E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7755588E-02 Y=  0.2285987E-08 Z=  0.4611626E-02  Total=      0.0090231
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085830E+02         XY=  0.38777936E-01         XZ=  0.57402921E-01
                YY= -0.10161240E+02         YZ=  0.23058128E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38282713E-01 Y=  0.70403917E-11 Z= -0.11577004E-06   Total=     0.03828271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52139581E+00         XY= -0.36171921E+00         XZ= -0.32029795E+00
                YY=  0.12448333E+01         YZ= -0.10938065E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3328875E-02 Y=  0.2287143E-08 Z=  0.4611400E-02  Total=      0.0056874
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130097E+02         XY=  0.16644375E-01         XZ=  0.37798781E-01
                YY= -0.10161239E+02         YZ=  0.23056996E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65632824E-01 Y=  0.49024744E-11 Z= -0.86207341E-07   Total=     0.06563282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45540747E-02         XY= -0.62014031E+00         XZ= -0.54912620E+00
                YY=  0.12448340E+01         YZ= -0.81449752E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2364260E-02 Y=  0.2295667E-08 Z=  0.4611374E-02  Total=      0.0051821
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187028E+02         XY= -0.11821301E-01         XZ=  0.12587474E-01
                YY= -0.10161239E+02         YZ=  0.23056869E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68011486E-01 Y=  0.13884478E-11 Z=  0.62449114E-07   Total=     0.06801149
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.40397420E-01         XY= -0.64261541E+00         XZ= -0.56902648E+00
                YY=  0.12448343E+01         YZ=  0.59007310E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7157739E-02 Y=  0.2307298E-08 Z=  0.4611585E-02  Total=      0.0085147
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234963E+02         XY= -0.35788696E-01         XZ= -0.86386763E-02
                YY= -0.10161239E+02         YZ=  0.23057922E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44513686E-01 Y= -0.20960749E-11 Z=  0.12483050E-06   Total=     0.04451369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40364538E+00         XY= -0.42059338E+00         XZ= -0.37242872E+00
                YY=  0.12448337E+01         YZ=  0.11794629E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9227778E-02 Y=  0.2307804E-08 Z=  0.4611741E-02  Total=      0.0103160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255663E+02         XY= -0.46138891E-01         XZ= -0.17804764E-01
                YY= -0.10161239E+02         YZ=  0.23058705E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40796765E-02 Y= -0.39830790E-11 Z=  0.15189904E-07   Total=     0.00407968
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11677379E+01         XY= -0.38547356E-01         XZ= -0.34133428E-01
                YY=  0.12448331E+01         YZ=  0.14349407E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7786785E-02 Y=  0.2308887E-08 Z=  0.4611628E-02  Total=      0.0090499
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241253E+02         XY= -0.38933928E-01         XZ= -0.11424130E-01
                YY= -0.10161239E+02         YZ=  0.23058139E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37906539E-01 Y= -0.32508031E-11 Z= -0.11448030E-06   Total=     0.03790654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19611640E+01         XY=  0.35816489E+00         XZ=  0.31714858E+00
                YY=  0.12448333E+01         YZ= -0.10817052E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3383018E-02 Y=  0.2309682E-08 Z=  0.4611401E-02  Total=      0.0057193
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197216E+02         XY= -0.16915092E-01         XZ=  0.80761378E-02
                YY= -0.10161239E+02         YZ=  0.23057004E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65470381E-01 Y=  0.63431985E-13 Z= -0.84015747E-07   Total=     0.06547038
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24820456E+01         XY=  0.61860545E+00         XZ=  0.54776558E+00
                YY=  0.12448340E+01         YZ= -0.79382895E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2308014E-02 Y=  0.2315895E-08 Z=  0.4611373E-02  Total=      0.0051567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140305E+02         XY=  0.11540067E-01         XZ=  0.33277868E-01
                YY= -0.10161239E+02         YZ=  0.23056864E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68124574E-01 Y=  0.48013554E-11 Z=  0.66341258E-07   Total=     0.06812457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25322013E+01         XY=  0.64368394E+00         XZ=  0.56997393E+00
                YY=  0.12448343E+01         YZ=  0.62687856E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7121030E-02 Y=  0.2326297E-08 Z=  0.4611583E-02  Total=      0.0084839
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092175E+02         XY=  0.35605150E-01         XZ=  0.54592644E-01
                YY= -0.10161239E+02         YZ=  0.23057914E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44859262E-01 Y=  0.91312062E-11 Z=  0.13083478E-06   Total=     0.04485926
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20925494E+01         XY=  0.42385860E+00         XZ=  0.37532250E+00
                YY=  0.12448337E+01         YZ=  0.12362902E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9224812E-02 Y=  0.2327092E-08 Z=  0.4611742E-02  Total=      0.0103134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071138E+02         XY=  0.46124058E-01         XZ=  0.63909738E-01
                YY= -0.10161239E+02         YZ=  0.23058710E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45262323E-02 Y=  0.11332838E-10 Z=  0.21168821E-07   Total=     0.00452623
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13303660E+01         XY=  0.42766697E-01         XZ=  0.37870009E-01
                YY=  0.12448331E+01         YZ=  0.20011535E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7818926E-02 Y=  0.2328031E-08 Z=  0.4611632E-02  Total=      0.0090776
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085196E+02         XY=  0.39094630E-01         XZ=  0.57683456E-01
                YY= -0.10161239E+02         YZ=  0.23058158E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37528937E-01 Y=  0.10578555E-10 Z= -0.11202914E-06   Total=     0.03752894
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53564010E+00         XY= -0.35459707E+00         XZ= -0.31399138E+00
                YY=  0.12448333E+01         YZ= -0.10584293E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3438270E-02 Y=  0.2329982E-08 Z=  0.4611405E-02  Total=      0.0057521
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129003E+02         XY=  0.17191348E-01         XZ=  0.38283262E-01
                YY= -0.10161239E+02         YZ=  0.23057021E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65305436E-01 Y=  0.73534259E-11 Z= -0.86454229E-07   Total=     0.06530544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10740832E-01         XY= -0.61704695E+00         XZ= -0.54638704E+00
                YY=  0.12448340E+01         YZ= -0.81680820E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2250444E-02 Y=  0.2338000E-08 Z=  0.4611373E-02  Total=      0.0051312
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185890E+02         XY= -0.11252223E-01         XZ=  0.13091503E-01
                YY= -0.10161239E+02         YZ=  0.23056865E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68235082E-01 Y=  0.33016026E-11 Z=  0.61251881E-07   Total=     0.06823508
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.44622734E-01         XY= -0.64472809E+00         XZ= -0.57089718E+00
                YY=  0.12448343E+01         YZ=  0.57877875E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7082822E-02 Y=  0.2347897E-08 Z=  0.4611582E-02  Total=      0.0084518
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234214E+02         XY= -0.35414112E-01         XZ= -0.83069157E-02
                YY= -0.10161239E+02         YZ=  0.23057906E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45203223E-01 Y=  0.53896233E-12 Z=  0.12649146E-06   Total=     0.04520322
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39061504E+00         XY= -0.42710856E+00         XZ= -0.37819775E+00
                YY=  0.12448338E+01         YZ=  0.11951808E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9220283E-02 Y=  0.2347825E-08 Z=  0.4611743E-02  Total=      0.0103093
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255589E+02         XY= -0.46101415E-01         XZ= -0.17771548E-01
                YY= -0.10161239E+02         YZ=  0.23058711E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49728333E-02 Y=  0.71628546E-12 Z=  0.18932778E-07   Total=     0.00497283
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11508597E+01         XY= -0.46986466E-01         XZ= -0.41606093E-01
                YY=  0.12448331E+01         YZ=  0.17890054E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7849585E-02 Y=  0.2348475E-08 Z=  0.4611635E-02  Total=      0.0091040
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241882E+02         XY= -0.39247927E-01         XZ= -0.11702183E-01
                YY= -0.10161239E+02         YZ=  0.23058171E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37149547E-01 Y=  0.42460858E-11 Z= -0.11288770E-06   Total=     0.03714955
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19468589E+01         XY=  0.35101235E+00         XZ=  0.31081506E+00
                YY=  0.12448333E+01         YZ= -0.10665925E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3492245E-02 Y=  0.2348475E-08 Z=  0.4611407E-02  Total=      0.0057845
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198308E+02         XY= -0.17461228E-01         XZ=  0.75924763E-02
                YY= -0.10161239E+02         YZ=  0.23057031E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65137519E-01 Y=  0.10052564E-10 Z= -0.86230276E-07   Total=     0.06513752
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24757555E+01         XY=  0.61546036E+00         XZ=  0.54498046E+00
                YY=  0.12448340E+01         YZ= -0.81466761E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2193886E-02 Y=  0.2354616E-08 Z=  0.4611373E-02  Total=      0.0051067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141447E+02         XY=  0.10969430E-01         XZ=  0.32772468E-01
                YY= -0.10161239E+02         YZ=  0.23056861E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68342426E-01 Y=  0.15977694E-10 Z=  0.63789592E-07   Total=     0.06834243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25363182E+01         XY=  0.64574234E+00         XZ=  0.57179633E+00
                YY=  0.12448344E+01         YZ=  0.60286436E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7045389E-02 Y=  0.2364729E-08 Z=  0.4611580E-02  Total=      0.0084205
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092932E+02         XY=  0.35226944E-01         XZ=  0.54257646E-01
                YY= -0.10161239E+02         YZ=  0.23057898E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45544872E-01 Y=  0.19690190E-10 Z=  0.13200009E-06   Total=     0.04554487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21055055E+01         XY=  0.43033668E+00         XZ=  0.38105844E+00
                YY=  0.12448338E+01         YZ=  0.12473912E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9216394E-02 Y=  0.2366752E-08 Z=  0.4611743E-02  Total=      0.0103058
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071222E+02         XY=  0.46081970E-01         XZ=  0.63872435E-01
                YY= -0.10161239E+02         YZ=  0.23058715E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54186774E-02 Y=  0.19705502E-10 Z=  0.25220528E-07   Total=     0.00541868
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13472308E+01         XY=  0.51199082E-01         XZ=  0.45336475E-01
                YY=  0.12448331E+01         YZ=  0.23847070E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7880888E-02 Y=  0.2367836E-08 Z=  0.4611638E-02  Total=      0.0091310
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084577E+02         XY=  0.39404437E-01         XZ=  0.57957828E-01
                YY= -0.10161239E+02         YZ=  0.23058190E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36769265E-01 Y=  0.16063309E-10 Z= -0.10971017E-06   Total=     0.03676927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54999580E+00         XY= -0.34741921E+00         XZ= -0.30763576E+00
                YY=  0.12448332E+01         YZ= -0.10364700E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3546984E-02 Y=  0.2368775E-08 Z=  0.4611410E-02  Total=      0.0058177
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127916E+02         XY=  0.17734919E-01         XZ=  0.38764656E-01
                YY= -0.10161239E+02         YZ=  0.23057048E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64967614E-01 Y=  0.10349923E-10 Z= -0.88098279E-07   Total=     0.06496761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17124766E-01         XY= -0.61385499E+00         XZ= -0.54356085E+00
                YY=  0.12448340E+01         YZ= -0.83231471E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2136394E-02 Y=  0.2376360E-08 Z=  0.4611373E-02  Total=      0.0050822
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184749E+02         XY= -0.10681972E-01         XZ=  0.13596491E-01
                YY= -0.10161239E+02         YZ=  0.23056863E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68447669E-01 Y=  0.50345240E-11 Z=  0.58639861E-07   Total=     0.06844767
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.48639988E-01         XY= -0.64673675E+00         XZ= -0.57267596E+00
                YY=  0.12448344E+01         YZ=  0.55411574E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7006885E-02 Y=  0.2386474E-08 Z=  0.4611579E-02  Total=      0.0083883
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233455E+02         XY= -0.35034426E-01         XZ= -0.79707209E-02
                YY= -0.10161239E+02         YZ=  0.23057891E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45885348E-01 Y=  0.24012857E-11 Z=  0.12682680E-06   Total=     0.04588535
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37772478E+00         XY= -0.43355371E+00         XZ= -0.38390486E+00
                YY=  0.12448338E+01         YZ=  0.11983674E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9211407E-02 Y=  0.2386618E-08 Z=  0.4611744E-02  Total=      0.0103014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255500E+02         XY= -0.46057037E-01         XZ= -0.17732304E-01
                YY= -0.10161239E+02         YZ=  0.23058717E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58649725E-02 Y=  0.35424029E-11 Z=  0.21611492E-07   Total=     0.00586497
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11340007E+01         XY= -0.55415959E-01         XZ= -0.49070217E-01
                YY=  0.12448331E+01         YZ=  0.20423682E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7911206E-02 Y=  0.2385535E-08 Z=  0.4611641E-02  Total=      0.0091572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242498E+02         XY= -0.39556030E-01         XZ= -0.11975090E-01
                YY= -0.10161239E+02         YZ=  0.23058203E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36386826E-01 Y=  0.78639594E-11 Z= -0.11205799E-06   Total=     0.03638683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19324456E+01         XY=  0.34380568E+00         XZ=  0.30443375E+00
                YY=  0.12448332E+01         YZ= -0.10587203E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3600974E-02 Y=  0.2385029E-08 Z=  0.4611412E-02  Total=      0.0058508
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199395E+02         XY= -0.18004874E-01         XZ=  0.71109562E-02
                YY= -0.10161239E+02         YZ=  0.23057058E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64794410E-01 Y=  0.13332081E-10 Z= -0.89068600E-07   Total=     0.06479441
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24692717E+01         XY=  0.61221845E+00         XZ=  0.54210987E+00
                YY=  0.12448340E+01         YZ= -0.84145620E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2079360E-02 Y=  0.2385463E-08 Z=  0.4611372E-02  Total=      0.0050585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142592E+02         XY=  0.10396796E-01         XZ=  0.32265248E-01
                YY= -0.10161239E+02         YZ=  0.23056859E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68549476E-01 Y=  0.17358546E-10 Z=  0.60521007E-07   Total=     0.06854948
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25402309E+01         XY=  0.64769869E+00         XZ=  0.57352872E+00
                YY=  0.12448344E+01         YZ=  0.57199436E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6968581E-02 Y=  0.2395793E-08 Z=  0.4611577E-02  Total=      0.0083563
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093700E+02         XY=  0.34842905E-01         XZ=  0.53917449E-01
                YY= -0.10161239E+02         YZ=  0.23057882E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46223316E-01 Y=  0.17939165E-10 Z=  0.13221982E-06   Total=     0.04622332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21183263E+01         XY=  0.43674704E+00         XZ=  0.38673481E+00
                YY=  0.12448338E+01         YZ=  0.12494547E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9206472E-02 Y=  0.2398032E-08 Z=  0.4611744E-02  Total=      0.0102970
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071321E+02         XY=  0.46032360E-01         XZ=  0.63828454E-01
                YY= -0.10161239E+02         YZ=  0.23058720E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63104067E-02 Y=  0.14539478E-10 Z=  0.28082238E-07   Total=     0.00631041
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13640820E+01         XY=  0.59624702E-01         XZ=  0.52797322E-01
                YY=  0.12448331E+01         YZ=  0.26546866E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7941572E-02 Y=  0.2399622E-08 Z=  0.4611645E-02  Total=      0.0091835
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083970E+02         XY=  0.39707857E-01         XZ=  0.58226543E-01
                YY= -0.10161239E+02         YZ=  0.23058221E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36003499E-01 Y=  0.83342081E-11 Z= -0.10878808E-06   Total=     0.03600350
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56446667E+00         XY= -0.34018377E+00         XZ= -0.30122884E+00
                YY=  0.12448332E+01         YZ= -0.10278202E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3655133E-02 Y=  0.2398466E-08 Z=  0.4611415E-02  Total=      0.0058843
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126834E+02         XY=  0.18275663E-01         XZ=  0.39243557E-01
                YY= -0.10161239E+02         YZ=  0.23057074E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64619131E-01 Y=  0.16971648E-11 Z= -0.91262579E-07   Total=     0.06461913
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23710180E-01         XY= -0.61056230E+00         XZ= -0.54064523E+00
                YY=  0.12448340E+01         YZ= -0.86228347E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2021979E-02 Y=  0.2397888E-08 Z=  0.4611372E-02  Total=      0.0050352
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183605E+02         XY= -0.10109895E-01         XZ=  0.14103112E-01
                YY= -0.10161239E+02         YZ=  0.23056860E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68649028E-01 Y= -0.28336505E-11 Z=  0.54573992E-07   Total=     0.06864903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.52445063E-01         XY= -0.64863931E+00         XZ= -0.57436071E+00
                YY=  0.12448344E+01         YZ=  0.51563490E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6929784E-02 Y=  0.2407424E-08 Z=  0.4611575E-02  Total=      0.0083240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232684E+02         XY= -0.34648923E-01         XZ= -0.76293576E-02
                YY= -0.10161239E+02         YZ=  0.23057874E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46559923E-01 Y= -0.36523956E-11 Z=  0.12604735E-06   Total=     0.04655992
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36497719E+00         XY= -0.43992751E+00         XZ= -0.38954884E+00
                YY=  0.12448338E+01         YZ=  0.11909538E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9201005E-02 Y=  0.2406268E-08 Z=  0.4611744E-02  Total=      0.0102921
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255396E+02         XY= -0.46005026E-01         XZ= -0.17686287E-01
                YY= -0.10161239E+02         YZ=  0.23058720E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67561103E-02 Y= -0.76081996E-12 Z=  0.23684866E-07   Total=     0.00675611
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11171606E+01         XY= -0.63835991E-01         XZ= -0.56526135E-01
                YY=  0.12448331E+01         YZ=  0.22379283E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7971510E-02 Y=  0.2404317E-08 Z=  0.4611647E-02  Total=      0.0092094
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243101E+02         XY= -0.39857551E-01         XZ= -0.12242167E-01
                YY= -0.10161239E+02         YZ=  0.23058232E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35618155E-01 Y=  0.42694177E-11 Z= -0.11142660E-06   Total=     0.03561816
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19179198E+01         XY=  0.33654280E+00         XZ=  0.29800239E+00
                YY=  0.12448332E+01         YZ= -0.10527835E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3709094E-02 Y=  0.2403739E-08 Z=  0.4611417E-02  Total=      0.0059180
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200477E+02         XY= -0.18545471E-01         XZ=  0.66321235E-02
                YY= -0.10161239E+02         YZ=  0.23057083E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64440631E-01 Y=  0.90156860E-11 Z= -0.92010797E-07   Total=     0.06444063
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24625862E+01         XY=  0.60887572E+00         XZ=  0.53914965E+00
                YY=  0.12448340E+01         YZ= -0.86929124E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1964505E-02 Y=  0.2404534E-08 Z=  0.4611371E-02  Total=      0.0050124
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143741E+02         XY=  0.98225252E-02         XZ=  0.31756551E-01
                YY= -0.10161239E+02         YZ=  0.23056855E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68745154E-01 Y=  0.11274910E-10 Z=  0.56993130E-07   Total=     0.06874515
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25439287E+01         XY=  0.64954757E+00         XZ=  0.57516555E+00
                YY=  0.12448344E+01         YZ=  0.53861046E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6890633E-02 Y=  0.2415442E-08 Z=  0.4611573E-02  Total=      0.0082914
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094479E+02         XY=  0.34453163E-01         XZ=  0.53572155E-01
                YY= -0.10161239E+02         YZ=  0.23057864E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46893971E-01 Y=  0.10005124E-10 Z=  0.13204237E-06   Total=     0.04689397
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21309999E+01         XY=  0.44308381E+00         XZ=  0.39234563E+00
                YY=  0.12448338E+01         YZ=  0.12477122E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9195026E-02 Y=  0.2417176E-08 Z=  0.4611745E-02  Total=      0.0102867
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071436E+02         XY=  0.45975130E-01         XZ=  0.63777665E-01
                YY= -0.10161239E+02         YZ=  0.23058722E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.72008563E-02 Y=  0.57301856E-11 Z=  0.30631913E-07   Total=     0.00720086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13809091E+01         XY=  0.68038232E-01         XZ=  0.60247159E-01
                YY=  0.12448331E+01         YZ=  0.28948657E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8000922E-02 Y=  0.2417610E-08 Z=  0.4611650E-02  Total=      0.0092348
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083377E+02         XY=  0.40004609E-01         XZ=  0.58489281E-01
                YY= -0.10161239E+02         YZ=  0.23058249E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35232049E-01 Y=  0.24813990E-12 Z= -0.10789974E-06   Total=     0.03523205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57904495E+00         XY= -0.33289462E+00         XZ= -0.29477454E+00
                YY=  0.12448332E+01         YZ= -0.10194935E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3762638E-02 Y=  0.2417032E-08 Z=  0.4611420E-02  Total=      0.0059517
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125759E+02         XY=  0.18813187E-01         XZ=  0.39719531E-01
                YY= -0.10161239E+02         YZ=  0.23057099E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64260187E-01 Y= -0.42011791E-11 Z= -0.94154937E-07   Total=     0.06426019
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30493239E-01         XY= -0.60717078E+00         XZ= -0.53764213E+00
                YY=  0.12448340E+01         YZ= -0.88966081E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1907282E-02 Y=  0.2416526E-08 Z=  0.4611372E-02  Total=      0.0049902
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182458E+02         XY= -0.95364102E-02         XZ=  0.14610909E-01
                YY= -0.10161239E+02         YZ=  0.23056856E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68839145E-01 Y= -0.59221795E-11 Z=  0.51019053E-07   Total=     0.06883914
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.56037715E-01         XY= -0.65043566E+00         XZ= -0.57595126E+00
                YY=  0.12448344E+01         YZ=  0.48202045E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6851592E-02 Y=  0.2425628E-08 Z=  0.4611572E-02  Total=      0.0082590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231902E+02         XY= -0.34257963E-01         XZ= -0.72832241E-02
                YY= -0.10161239E+02         YZ=  0.23057856E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47226748E-01 Y= -0.44645040E-11 Z=  0.12598140E-06   Total=     0.04722675
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35237604E+00         XY= -0.44622810E+00         XZ= -0.39512767E+00
                YY=  0.12448338E+01         YZ=  0.11903243E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9189124E-02 Y=  0.2426134E-08 Z=  0.4611745E-02  Total=      0.0102814
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255277E+02         XY= -0.45945622E-01         XZ= -0.17633770E-01
                YY= -0.10161239E+02         YZ=  0.23058721E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.76459146E-02 Y= -0.74729796E-12 Z=  0.26678871E-07   Total=     0.00764591
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11003458E+01         XY= -0.72243423E-01         XZ= -0.63970424E-01
                YY=  0.12448331E+01         YZ=  0.25208227E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8030515E-02 Y=  0.2426062E-08 Z=  0.4611652E-02  Total=      0.0092605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243691E+02         XY= -0.40152575E-01         XZ= -0.12503513E-01
                YY= -0.10161239E+02         YZ=  0.23058260E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34843945E-01 Y=  0.34184635E-11 Z= -0.10970097E-06   Total=     0.03484395
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19032893E+01         XY=  0.32922757E+00         XZ=  0.29152527E+00
                YY=  0.12448332E+01         YZ= -0.10364859E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3816586E-02 Y=  0.2425556E-08 Z=  0.4611422E-02  Total=      0.0059859
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201552E+02         XY= -0.19082931E-01         XZ=  0.61560725E-02
                YY= -0.10161239E+02         YZ=  0.23057108E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64076616E-01 Y=  0.61612581E-11 Z= -0.93763334E-07   Total=     0.06407662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24557074E+01         XY=  0.60543628E+00         XZ=  0.53610443E+00
                YY=  0.12448340E+01         YZ= -0.88587440E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1849376E-02 Y=  0.2424978E-08 Z=  0.4611371E-02  Total=      0.0049684
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144892E+02         XY=  0.92468795E-02         XZ=  0.31246667E-01
                YY= -0.10161239E+02         YZ=  0.23056852E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68929878E-01 Y=  0.63480246E-11 Z=  0.54726748E-07   Total=     0.06892988
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25474195E+01         XY=  0.65129296E+00         XZ=  0.57671135E+00
                YY=  0.12448343E+01         YZ=  0.51715495E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6811627E-02 Y=  0.2433936E-08 Z=  0.4611570E-02  Total=      0.0082259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095269E+02         XY=  0.34058132E-01         XZ=  0.53222233E-01
                YY= -0.10161239E+02         YZ=  0.23057847E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47557202E-01 Y=  0.40059687E-11 Z=  0.13328643E-06   Total=     0.04755720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21435331E+01         XY=  0.44935044E+00         XZ=  0.39789485E+00
                YY=  0.12448338E+01         YZ=  0.12594167E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9182164E-02 Y=  0.2435092E-08 Z=  0.4611745E-02  Total=      0.0102752
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071564E+02         XY=  0.45910819E-01         XZ=  0.63720676E-01
                YY= -0.10161239E+02         YZ=  0.23058725E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.80903028E-02 Y=  0.20620956E-12 Z=  0.34868922E-07   Total=     0.00809030
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13977172E+01         XY=  0.76442283E-01         XZ=  0.67688932E-01
                YY=  0.12448331E+01         YZ=  0.32947445E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8059062E-02 Y=  0.2436465E-08 Z=  0.4611656E-02  Total=      0.0092852
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082795E+02         XY=  0.40295309E-01         XZ=  0.58746744E-01
                YY= -0.10161239E+02         YZ=  0.23058280E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34454762E-01 Y= -0.34944294E-11 Z= -0.10507124E-06   Total=     0.03445476
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59373353E+00         XY= -0.32555032E+00         XZ= -0.28827131E+00
                YY=  0.12448332E+01         YZ= -0.99279933E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3869627E-02 Y=  0.2437620E-08 Z=  0.4611426E-02  Total=      0.0060199
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124689E+02         XY=  0.19348132E-01         XZ=  0.40193307E-01
                YY= -0.10161239E+02         YZ=  0.23057128E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63890780E-01 Y= -0.57674899E-11 Z= -0.94973828E-07   Total=     0.06389078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37474038E-01         XY= -0.60368038E+00         XZ= -0.53455164E+00
                YY=  0.12448340E+01         YZ= -0.89741159E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1792182E-02 Y=  0.2438271E-08 Z=  0.4611372E-02  Total=      0.0049474
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181307E+02         XY= -0.89609125E-02         XZ=  0.15120564E-01
                YY= -0.10161239E+02         YZ=  0.23056857E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69018176E-01 Y= -0.60539894E-11 Z=  0.49603967E-07   Total=     0.06901818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.59420869E-01         XY= -0.65212725E+00         XZ= -0.57744944E+00
                YY=  0.12448343E+01         YZ=  0.46864803E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6772208E-02 Y=  0.2446723E-08 Z=  0.4611569E-02  Total=      0.0081933
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231108E+02         XY= -0.33861040E-01         XZ= -0.69317548E-02
                YY= -0.10161239E+02         YZ=  0.23057842E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47886128E-01 Y= -0.47060058E-11 Z=  0.12819441E-06   Total=     0.04788613
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33991558E+00         XY= -0.45245834E+00         XZ= -0.40064477E+00
                YY=  0.12448338E+01         YZ=  0.12112311E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9175693E-02 Y=  0.2446650E-08 Z=  0.4611746E-02  Total=      0.0102694
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255143E+02         XY= -0.45878469E-01         XZ= -0.17574361E-01
                YY= -0.10161239E+02         YZ=  0.23058727E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85348024E-02 Y= -0.27066291E-11 Z=  0.32170666E-07   Total=     0.00853480
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10835482E+01         XY= -0.80642196E-01         XZ= -0.71407686E-01
                YY=  0.12448331E+01         YZ=  0.30395450E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8088186E-02 Y=  0.2446939E-08 Z=  0.4611659E-02  Total=      0.0093105
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244268E+02         XY= -0.40440931E-01         XZ= -0.12758949E-01
                YY= -0.10161239E+02         YZ=  0.23058295E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34063718E-01 Y= -0.11410984E-11 Z= -0.10538012E-06   Total=     0.03406372
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18885451E+01         XY=  0.32185549E+00         XZ=  0.28499718E+00
                YY=  0.12448332E+01         YZ= -0.99569929E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3923455E-02 Y=  0.2445495E-08 Z=  0.4611429E-02  Total=      0.0060546
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202620E+02         XY= -0.19617278E-01         XZ=  0.56827611E-02
                YY= -0.10161239E+02         YZ=  0.23057142E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63701894E-01 Y= -0.69333151E-12 Z= -0.93156018E-07   Total=     0.06370189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24486261E+01         XY=  0.60189567E+00         XZ=  0.53296912E+00
                YY=  0.12448339E+01         YZ= -0.88019481E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1733931E-02 Y=  0.2444917E-08 Z=  0.4611372E-02  Total=      0.0049266
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146046E+02         XY=  0.86696540E-02         XZ=  0.30735349E-01
                YY= -0.10161239E+02         YZ=  0.23056859E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69103246E-01 Y= -0.14004524E-11 Z=  0.54281797E-07   Total=     0.06910325
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25506958E+01         XY=  0.65293105E+00         XZ=  0.57816183E+00
                YY=  0.12448343E+01         YZ=  0.51288461E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6731494E-02 Y=  0.2453152E-08 Z=  0.4611568E-02  Total=      0.0081596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096071E+02         XY=  0.33657468E-01         XZ=  0.52867281E-01
                YY= -0.10161239E+02         YZ=  0.23057839E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48212737E-01 Y= -0.27510684E-11 Z=  0.13578674E-06   Total=     0.04821274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21559210E+01         XY=  0.45554434E+00         XZ=  0.40337961E+00
                YY=  0.12448338E+01         YZ=  0.12829833E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9167800E-02 Y=  0.2452863E-08 Z=  0.4611748E-02  Total=      0.0102624
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071708E+02         XY=  0.45838999E-01         XZ=  0.63657001E-01
                YY= -0.10161239E+02         YZ=  0.23058737E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89786465E-02 Y= -0.40347939E-11 Z=  0.40048991E-07   Total=     0.00897865
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14145044E+01         XY=  0.84835914E-01         XZ=  0.75121693E-01
                YY=  0.12448331E+01         YZ=  0.37838190E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8115906E-02 Y=  0.2453008E-08 Z=  0.4611664E-02  Total=      0.0093346
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082227E+02         XY=  0.40579529E-01         XZ=  0.58998446E-01
                YY= -0.10161239E+02         YZ=  0.23058320E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33671533E-01 Y= -0.47375745E-11 Z= -0.10129081E-06   Total=     0.03367153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60853438E+00         XY= -0.31814988E+00         XZ= -0.28171790E+00
                YY=  0.12448332E+01         YZ= -0.95709176E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3976031E-02 Y=  0.2453008E-08 Z=  0.4611434E-02  Total=      0.0060889
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123625E+02         XY=  0.19880153E-01         XZ=  0.40664498E-01
                YY= -0.10161239E+02         YZ=  0.23057167E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63510596E-01 Y= -0.47693282E-11 Z= -0.94625307E-07   Total=     0.06351060
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44658505E-01         XY= -0.60008816E+00         XZ= -0.53137030E+00
                YY=  0.12448339E+01         YZ= -0.89411240E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1676716E-02 Y=  0.2453730E-08 Z=  0.4611374E-02  Total=      0.0049067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180153E+02         XY= -0.83835827E-02         XZ=  0.15631878E-01
                YY= -0.10161239E+02         YZ=  0.23056869E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69185617E-01 Y= -0.44197910E-11 Z=  0.49628592E-07   Total=     0.06918562
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.62585008E-01         XY= -0.65370934E+00         XZ= -0.57884984E+00
                YY=  0.12448343E+01         YZ=  0.46889197E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6691620E-02 Y=  0.2463194E-08 Z=  0.4611568E-02  Total=      0.0081268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230302E+02         XY= -0.33458102E-01         XZ= -0.65748855E-02
                YY= -0.10161239E+02         YZ=  0.23057839E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48537423E-01 Y= -0.40937823E-11 Z=  0.13205520E-06   Total=     0.04853742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32760793E+00         XY= -0.45861218E+00         XZ= -0.40609335E+00
                YY=  0.12448338E+01         YZ=  0.12477129E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9160648E-02 Y=  0.2463844E-08 Z=  0.4611749E-02  Total=      0.0102560
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254992E+02         XY= -0.45803243E-01         XZ= -0.17507695E-01
                YY= -0.10161239E+02         YZ=  0.23058745E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.94220833E-02 Y= -0.39990805E-11 Z=  0.39320802E-07   Total=     0.00942208
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10667810E+01         XY= -0.89025785E-01         XZ= -0.78830713E-01
                YY=  0.12448331E+01         YZ=  0.37150022E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8144404E-02 Y=  0.2463266E-08 Z=  0.4611669E-02  Total=      0.0093594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244830E+02         XY= -0.40722023E-01         XZ= -0.13007818E-01
                YY= -0.10161239E+02         YZ=  0.23058342E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33278104E-01 Y= -0.39791921E-11 Z= -0.99710355E-07   Total=     0.03327810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18736992E+01         XY=  0.31443251E+00         XZ=  0.27842464E+00
                YY=  0.12448332E+01         YZ= -0.94215394E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4029539E-02 Y=  0.2462110E-08 Z=  0.4611438E-02  Total=      0.0061239
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203681E+02         XY= -0.20147698E-01         XZ=  0.52130826E-02
                YY= -0.10161239E+02         YZ=  0.23057189E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63316915E-01 Y= -0.35988897E-11 Z= -0.91799479E-07   Total=     0.06331691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24413511E+01         XY=  0.59825814E+00         XZ=  0.52974837E+00
                YY=  0.12448339E+01         YZ= -0.86740399E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1618358E-02 Y=  0.2460665E-08 Z=  0.4611376E-02  Total=      0.0048871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147202E+02         XY=  0.80917869E-02         XZ=  0.30223627E-01
                YY= -0.10161239E+02         YZ=  0.23056878E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69265430E-01 Y= -0.24428127E-11 Z=  0.53952758E-07   Total=     0.06926543
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25537607E+01         XY=  0.65446347E+00         XZ=  0.57951883E+00
                YY=  0.12448343E+01         YZ=  0.50976465E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6650422E-02 Y=  0.2466878E-08 Z=  0.4611569E-02  Total=      0.0080929
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096882E+02         XY=  0.33252106E-01         XZ=  0.52508325E-01
                YY= -0.10161239E+02         YZ=  0.23057843E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48860414E-01 Y= -0.45284436E-12 Z=  0.13805249E-06   Total=     0.04886041
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21681603E+01         XY=  0.46166401E+00         XZ=  0.40879842E+00
                YY=  0.12448338E+01         YZ=  0.13044086E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9152095E-02 Y=  0.2466300E-08 Z=  0.4611752E-02  Total=      0.0102484
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071865E+02         XY=  0.45760475E-01         XZ=  0.63587528E-01
                YY= -0.10161239E+02         YZ=  0.23058760E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.98654048E-02 Y=  0.19045963E-11 Z=  0.45013938E-07   Total=     0.00986540
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14312617E+01         XY=  0.93214566E-01         XZ=  0.82540702E-01
                YY=  0.12448331E+01         YZ=  0.42534136E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8171565E-02 Y=  0.2466300E-08 Z=  0.4611675E-02  Total=      0.0093831
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081670E+02         XY=  0.40857824E-01         XZ=  0.59245014E-01
                YY= -0.10161239E+02         YZ=  0.23058371E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32883094E-01 Y=  0.37710770E-11 Z= -0.97574760E-07   Total=     0.03288309
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62343372E+00         XY= -0.31070021E+00         XZ= -0.27512159E+00
                YY=  0.12448332E+01         YZ= -0.92191105E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4081897E-02 Y=  0.2467022E-08 Z=  0.4611444E-02  Total=      0.0061585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122567E+02         XY=  0.20409482E-01         XZ=  0.41133386E-01
                YY= -0.10161239E+02         YZ=  0.23057218E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63120488E-01 Y=  0.43002647E-11 Z= -0.94399376E-07   Total=     0.06312049
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52030512E-01         XY= -0.59640217E+00         XZ= -0.52810674E+00
                YY=  0.12448339E+01         YZ= -0.89190375E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1560905E-02 Y=  0.2468539E-08 Z=  0.4611379E-02  Total=      0.0048684
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178995E+02         XY= -0.78045256E-02         XZ=  0.16144768E-01
                YY= -0.10161239E+02         YZ=  0.23056892E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69342305E-01 Y=  0.31426027E-11 Z=  0.49133214E-07   Total=     0.06934230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.65545905E-01         XY= -0.65518983E+00         XZ= -0.58016111E+00
                YY=  0.12448343E+01         YZ=  0.46427277E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6609910E-02 Y=  0.2477642E-08 Z=  0.4611570E-02  Total=      0.0080596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229485E+02         XY= -0.33049554E-01         XZ= -0.62130380E-02
                YY= -0.10161239E+02         YZ=  0.23057847E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49181321E-01 Y=  0.74651459E-12 Z=  0.13481895E-06   Total=     0.04918132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31544006E+00         XY= -0.46469614E+00         XZ= -0.41148083E+00
                YY=  0.12448338E+01         YZ=  0.12738654E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9144114E-02 Y=  0.2478436E-08 Z=  0.4611755E-02  Total=      0.0102412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254827E+02         XY= -0.45720574E-01         XZ= -0.17434457E-01
                YY= -0.10161239E+02         YZ=  0.23058772E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10308218E-01 Y= -0.17186642E-11 Z=  0.44878645E-07   Total=     0.01030822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10500355E+01         XY= -0.97398548E-01         XZ= -0.86244755E-01
                YY=  0.12448331E+01         YZ=  0.42403189E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8199321E-02 Y=  0.2478581E-08 Z=  0.4611680E-02  Total=      0.0094073
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245379E+02         XY= -0.40996608E-01         XZ= -0.13250962E-01
                YY= -0.10161239E+02         YZ=  0.23058397E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32486898E-01 Y= -0.28361965E-11 Z= -0.95886444E-07   Total=     0.03248690
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18587475E+01         XY=  0.30695670E+00         XZ=  0.27180496E+00
                YY=  0.12448332E+01         YZ= -0.90601479E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4134994E-02 Y=  0.2478003E-08 Z=  0.4611449E-02  Total=      0.0061938
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204736E+02         XY= -0.20674973E-01         XZ=  0.47461424E-02
                YY= -0.10161239E+02         YZ=  0.23057243E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62921712E-01 Y= -0.16254262E-11 Z= -0.92261596E-07   Total=     0.06292171
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24338829E+01         XY=  0.59452402E+00         XZ=  0.52644202E+00
                YY=  0.12448339E+01         YZ= -0.87175462E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1502511E-02 Y=  0.2477281E-08 Z=  0.4611381E-02  Total=      0.0048500
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148361E+02         XY=  0.75125520E-02         XZ=  0.29710650E-01
                YY= -0.10161239E+02         YZ=  0.23056905E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69416657E-01 Y=  0.18914506E-11 Z=  0.52117366E-07   Total=     0.06941666
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25566185E+01         XY=  0.65589236E+00         XZ=  0.58078438E+00
                YY=  0.12448343E+01         YZ=  0.49245859E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6568289E-02 Y=  0.2486166E-08 Z=  0.4611571E-02  Total=      0.0080255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097703E+02         XY=  0.32841442E-01         XZ=  0.52144646E-01
                YY= -0.10161239E+02         YZ=  0.23057854E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49500606E-01 Y=  0.65440709E-11 Z=  0.13938048E-06   Total=     0.04950061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21802583E+01         XY=  0.46771295E+00         XZ=  0.41415513E+00
                YY=  0.12448338E+01         YZ=  0.13170147E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9134962E-02 Y=  0.2487828E-08 Z=  0.4611758E-02  Total=      0.0102331
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072036E+02         XY=  0.45674808E-01         XZ=  0.63511730E-01
                YY= -0.10161239E+02         YZ=  0.23058789E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10751066E-01 Y=  0.10416428E-10 Z=  0.49716338E-07   Total=     0.01075107
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14479983E+01         XY=  0.10158285E+00         XZ=  0.89951279E-01
                YY=  0.12448331E+01         YZ=  0.46984401E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8225993E-02 Y=  0.2489056E-08 Z=  0.4611686E-02  Total=      0.0094305
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081126E+02         XY=  0.41129965E-01         XZ=  0.59486167E-01
                YY= -0.10161239E+02         YZ=  0.23058428E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32088853E-01 Y=  0.11665432E-10 Z= -0.93604529E-07   Total=     0.03208885
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63844270E+00         XY= -0.30319572E+00         XZ= -0.26847587E+00
                YY=  0.12448332E+01         YZ= -0.88433145E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4187228E-02 Y=  0.2490573E-08 Z=  0.4611455E-02  Total=      0.0062288
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121513E+02         XY=  0.20936140E-01         XZ=  0.41599981E-01
                YY= -0.10161239E+02         YZ=  0.23057275E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62719773E-01 Y=  0.94049213E-11 Z= -0.93762846E-07   Total=     0.06271977
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59602968E-01         XY= -0.59261597E+00         XZ= -0.52475357E+00
                YY=  0.12448339E+01         YZ= -0.88584638E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1444688E-02 Y=  0.2492812E-08 Z=  0.4611385E-02  Total=      0.0048324
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177833E+02         XY= -0.72234436E-02         XZ=  0.16659560E-01
                YY= -0.10161239E+02         YZ=  0.23056922E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69487494E-01 Y=  0.42324320E-11 Z=  0.48879331E-07   Total=     0.06948749
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.68289515E-01         XY= -0.65656167E+00         XZ= -0.58137540E+00
                YY=  0.12448343E+01         YZ=  0.46188340E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6526962E-02 Y=  0.2503143E-08 Z=  0.4611573E-02  Total=      0.0079917
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228655E+02         XY= -0.32634811E-01         XZ= -0.58455650E-02
                YY= -0.10161239E+02         YZ=  0.23057861E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49817091E-01 Y= -0.18898491E-11 Z=  0.13754807E-06   Total=     0.04981709
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30342580E+00         XY= -0.47070330E+00         XZ= -0.41679974E+00
                YY=  0.12448339E+01         YZ=  0.12996302E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9125922E-02 Y=  0.2504443E-08 Z=  0.4611761E-02  Total=      0.0102250
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254645E+02         XY= -0.45629611E-01         XZ= -0.17353717E-01
                YY= -0.10161239E+02         YZ=  0.23058804E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11192599E-01 Y= -0.64065318E-11 Z=  0.50188120E-07   Total=     0.01119260
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10333231E+01         XY= -0.10575473E+00         XZ= -0.93643847E-01
                YY=  0.12448331E+01         YZ=  0.47416061E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8252729E-02 Y=  0.2504010E-08 Z=  0.4611692E-02  Total=      0.0094538
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245913E+02         XY= -0.41263648E-01         XZ= -0.13487262E-01
                YY= -0.10161239E+02         YZ=  0.23058457E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31690452E-01 Y= -0.72857899E-11 Z= -0.92478862E-07   Total=     0.03169045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18436969E+01         XY=  0.29943138E+00         XZ=  0.26514138E+00
                YY=  0.12448332E+01         YZ= -0.87385408E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4239600E-02 Y=  0.2501987E-08 Z=  0.4611461E-02  Total=      0.0062642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205782E+02         XY= -0.21198004E-01         XZ=  0.42831135E-02
                YY= -0.10161239E+02         YZ=  0.23057304E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62516266E-01 Y= -0.39887115E-11 Z= -0.93355278E-07   Total=     0.06251627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24262211E+01         XY=  0.59069311E+00         XZ=  0.52304955E+00
                YY=  0.12448339E+01         YZ= -0.88210703E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1386590E-02 Y=  0.2500181E-08 Z=  0.4611388E-02  Total=      0.0048153
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149520E+02         XY=  0.69329480E-02         XZ=  0.29197475E-01
                YY= -0.10161239E+02         YZ=  0.23056938E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69556479E-01 Y=  0.21714208E-11 Z=  0.49402593E-07   Total=     0.06955648
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25592608E+01         XY=  0.65721348E+00         XZ=  0.58195380E+00
                YY=  0.12448343E+01         YZ=  0.46681128E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6485241E-02 Y=  0.2508127E-08 Z=  0.4611574E-02  Total=      0.0079577
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098533E+02         XY=  0.32426206E-01         XZ=  0.51777011E-01
                YY= -0.10161239E+02         YZ=  0.23057869E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50132476E-01 Y=  0.84927802E-11 Z=  0.13967009E-06   Total=     0.05013248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21921989E+01         XY=  0.47368325E+00         XZ=  0.41944127E+00
                YY=  0.12448339E+01         YZ=  0.13197686E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9116467E-02 Y=  0.2508778E-08 Z=  0.4611765E-02  Total=      0.0102166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072221E+02         XY=  0.45582331E-01         XZ=  0.63429948E-01
                YY= -0.10161239E+02         YZ=  0.23058821E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11634532E-01 Y=  0.12013197E-10 Z=  0.53356770E-07   Total=     0.01163453
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14646934E+01         XY=  0.10993040E+00         XZ=  0.97342440E-01
                YY=  0.12448331E+01         YZ=  0.50425533E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8279164E-02 Y=  0.2510511E-08 Z=  0.4611698E-02  Total=      0.0094769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080594E+02         XY=  0.41395818E-01         XZ=  0.59721756E-01
                YY= -0.10161239E+02         YZ=  0.23058489E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31289974E-01 Y=  0.10829229E-10 Z= -0.90712957E-07   Total=     0.03128997
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65353933E+00         XY= -0.29564741E+00         XZ= -0.26179236E+00
                YY=  0.12448331E+01         YZ= -0.85701645E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4291909E-02 Y=  0.2513256E-08 Z=  0.4611468E-02  Total=      0.0062997
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120467E+02         XY=  0.21459543E-01         XZ=  0.42063658E-01
                YY= -0.10161239E+02         YZ=  0.23057336E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62309469E-01 Y=  0.50150522E-11 Z= -0.94379339E-07   Total=     0.06230947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67356619E-01         XY= -0.58873916E+00         XZ= -0.52132101E+00
                YY=  0.12448339E+01         YZ= -0.89170765E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1328254E-02 Y=  0.2514268E-08 Z=  0.4611391E-02  Total=      0.0047989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176668E+02         XY= -0.66412715E-02         XZ=  0.17175250E-01
                YY= -0.10161239E+02         YZ=  0.23056955E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69621888E-01 Y= -0.32990161E-11 Z=  0.47050913E-07   Total=     0.06962189
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.70829141E-01         XY= -0.65783151E+00         XZ= -0.58249996E+00
                YY=  0.12448343E+01         YZ=  0.44454485E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6443002E-02 Y=  0.2522287E-08 Z=  0.4611576E-02  Total=      0.0079233
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227816E+02         XY= -0.32215012E-01         XZ= -0.54737017E-02
                YY= -0.10161239E+02         YZ=  0.23057877E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50445035E-01 Y= -0.10768280E-10 Z=  0.13843233E-06   Total=     0.05044504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29155942E+00         XY= -0.47663651E+00         XZ= -0.42205340E+00
                YY=  0.12448339E+01         YZ=  0.13079117E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9106307E-02 Y=  0.2522937E-08 Z=  0.4611768E-02  Total=      0.0102075
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254449E+02         XY= -0.45531537E-01         XZ= -0.17266769E-01
                YY= -0.10161239E+02         YZ=  0.23058837E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12075136E-01 Y= -0.14259763E-10 Z=  0.53616432E-07   Total=     0.01207514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10166456E+01         XY= -0.11409350E+00         XZ= -0.10102737E+00
                YY=  0.12448331E+01         YZ=  0.50648866E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8304844E-02 Y=  0.2521347E-08 Z=  0.4611704E-02  Total=      0.0094994
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246434E+02         XY= -0.41524224E-01         XZ= -0.13717916E-01
                YY= -0.10161239E+02         YZ=  0.23058518E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30889158E-01 Y= -0.12246588E-10 Z= -0.90757009E-07   Total=     0.03088916
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18285546E+01         XY=  0.29186025E+00         XZ=  0.25843772E+00
                YY=  0.12448331E+01         YZ= -0.85762546E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4343535E-02 Y=  0.2519180E-08 Z=  0.4611473E-02  Total=      0.0063350
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206821E+02         XY= -0.21717676E-01         XZ=  0.38230084E-02
                YY= -0.10161239E+02         YZ=  0.23057365E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62101146E-01 Y= -0.55450765E-11 Z= -0.95849790E-07   Total=     0.06210115
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24183765E+01         XY=  0.58677079E+00         XZ=  0.51957692E+00
                YY=  0.12448339E+01         YZ= -0.90568890E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1270468E-02 Y=  0.2517952E-08 Z=  0.4611395E-02  Total=      0.0047832
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150681E+02         XY=  0.63523364E-02         XZ=  0.28683393E-01
                YY= -0.10161239E+02         YZ=  0.23056971E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69685530E-01 Y=  0.29598399E-11 Z=  0.45533206E-07   Total=     0.06968553
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25616996E+01         XY=  0.65843283E+00         XZ=  0.58303404E+00
                YY=  0.12448343E+01         YZ=  0.43025809E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6401204E-02 Y=  0.2524887E-08 Z=  0.4611577E-02  Total=      0.0078894
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099374E+02         XY=  0.32006016E-01         XZ=  0.51405013E-01
                YY= -0.10161239E+02         YZ=  0.23057884E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50756643E-01 Y=  0.95129424E-11 Z=  0.13894919E-06   Total=     0.05075664
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22039940E+01         XY=  0.47958078E+00         XZ=  0.42466392E+00
                YY=  0.12448339E+01         YZ=  0.13129659E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9096581E-02 Y=  0.2525104E-08 Z=  0.4611771E-02  Total=      0.0101988
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072420E+02         XY=  0.45482905E-01         XZ=  0.63342074E-01
                YY= -0.10161239E+02         YZ=  0.23058852E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12516374E-01 Y=  0.11107283E-10 Z=  0.55961909E-07   Total=     0.01251637
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14813578E+01         XY=  0.11826259E+00         XZ=  0.10472087E+00
                YY=  0.12448331E+01         YZ=  0.52886291E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8331094E-02 Y=  0.2525826E-08 Z=  0.4611710E-02  Total=      0.0095223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080075E+02         XY=  0.41655468E-01         XZ=  0.59951943E-01
                YY= -0.10161239E+02         YZ=  0.23058548E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30485945E-01 Y=  0.68149028E-11 Z= -0.89130199E-07   Total=     0.03048595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66873325E+00         XY= -0.28805043E+00         XZ= -0.25506512E+00
                YY=  0.12448331E+01         YZ= -0.84209499E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4395995E-02 Y=  0.2526982E-08 Z=  0.4611480E-02  Total=      0.0063711
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119426E+02         XY=  0.21979971E-01         XZ=  0.42524815E-01
                YY= -0.10161239E+02         YZ=  0.23057396E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61889141E-01 Y= -0.17625468E-11 Z= -0.96793585E-07   Total=     0.06188914
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75299671E-01         XY= -0.58476764E+00         XZ= -0.51780427E+00
                YY=  0.12448339E+01         YZ= -0.91457539E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1211515E-02 Y=  0.2527921E-08 Z=  0.4611398E-02  Total=      0.0047679
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175501E+02         XY= -0.60575748E-02         XZ=  0.17692411E-01
                YY= -0.10161239E+02         YZ=  0.23056988E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69745173E-01 Y= -0.11142604E-10 Z=  0.42958879E-07   Total=     0.06974517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73158843E-01         XY= -0.65899638E+00         XZ= -0.58353159E+00
                YY=  0.12448343E+01         YZ=  0.40581558E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6357925E-02 Y=  0.2535507E-08 Z=  0.4611579E-02  Total=      0.0078543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226965E+02         XY= -0.31789629E-01         XZ= -0.50967807E-02
                YY= -0.10161239E+02         YZ=  0.23057891E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51065030E-01 Y= -0.17443808E-10 Z=  0.13691922E-06   Total=     0.05106503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27984323E+00         XY= -0.48249461E+00         XZ= -0.42724094E+00
                YY=  0.12448339E+01         YZ=  0.12935596E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9085164E-02 Y=  0.2535218E-08 Z=  0.4611774E-02  Total=      0.0101887
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254238E+02         XY= -0.45425822E-01         XZ= -0.17172967E-01
                YY= -0.10161239E+02         YZ=  0.23058867E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12955979E-01 Y= -0.18063553E-10 Z=  0.54946533E-07   Total=     0.01295598
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10000001E+01         XY= -0.12241626E+00         XZ= -0.10839741E+00
                YY=  0.12448331E+01         YZ=  0.51902496E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8355585E-02 Y=  0.2534279E-08 Z=  0.4611716E-02  Total=      0.0095438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246942E+02         XY= -0.41777927E-01         XZ= -0.13942428E-01
                YY= -0.10161239E+02         YZ=  0.23058576E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30082550E-01 Y= -0.12816228E-10 Z= -0.90629110E-07   Total=     0.03008255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18133119E+01         XY=  0.28423890E+00         XZ=  0.25168870E+00
                YY=  0.12448331E+01         YZ= -0.85642144E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4446765E-02 Y=  0.2533339E-08 Z=  0.4611485E-02  Total=      0.0064062
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207853E+02         XY= -0.22233825E-01         XZ=  0.33660373E-02
                YY= -0.10161239E+02         YZ=  0.23057424E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61675585E-01 Y= -0.40307979E-11 Z= -0.99590199E-07   Total=     0.06167558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24103346E+01         XY=  0.58274982E+00         XZ=  0.51601592E+00
                YY=  0.12448338E+01         YZ= -0.94101787E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1154106E-02 Y=  0.2533050E-08 Z=  0.4611401E-02  Total=      0.0047536
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151845E+02         XY=  0.57705292E-02         XZ=  0.28168224E-01
                YY= -0.10161239E+02         YZ=  0.23057001E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69802839E-01 Y=  0.44439971E-11 Z=  0.40429168E-07   Total=     0.06980284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25639164E+01         XY=  0.65954124E+00         XZ=  0.58401505E+00
                YY=  0.12448343E+01         YZ=  0.38204432E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6316057E-02 Y=  0.2541286E-08 Z=  0.4611579E-02  Total=      0.0078204
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100225E+02         XY=  0.31580283E-01         XZ=  0.51028038E-01
                YY= -0.10161239E+02         YZ=  0.23057895E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51372100E-01 Y=  0.88954026E-11 Z=  0.13677818E-06   Total=     0.05137210
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22156245E+01         XY=  0.48539600E+00         XZ=  0.42981285E+00
                YY=  0.12448339E+01         YZ=  0.12924477E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9075112E-02 Y=  0.2542658E-08 Z=  0.4611776E-02  Total=      0.0101797
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072635E+02         XY=  0.45375560E-01         XZ=  0.63247089E-01
                YY= -0.10161239E+02         YZ=  0.23058878E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13395740E-01 Y=  0.73447887E-11 Z=  0.56908697E-07   Total=     0.01339574
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14979754E+01         XY=  0.12657140E+00         XZ=  0.11207798E+00
                YY=  0.12448331E+01         YZ=  0.53777736E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8381533E-02 Y=  0.2545115E-08 Z=  0.4611721E-02  Total=      0.0095665
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079571E+02         XY=  0.41907661E-01         XZ=  0.60175411E-01
                YY= -0.10161239E+02         YZ=  0.23058602E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29677291E-01 Y=  0.39375019E-12 Z= -0.89261307E-07   Total=     0.02967729
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68401458E+00         XY= -0.28040976E+00         XZ= -0.24829949E+00
                YY=  0.12448331E+01         YZ= -0.84338728E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4499209E-02 Y=  0.2546054E-08 Z=  0.4611491E-02  Total=      0.0064427
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118394E+02         XY=  0.22496043E-01         XZ=  0.42981993E-01
                YY= -0.10161239E+02         YZ=  0.23057451E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61458888E-01 Y= -0.90484497E-11 Z= -0.10080467E-06   Total=     0.06145889
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83430288E-01         XY= -0.58070233E+00         XZ= -0.51420447E+00
                YY=  0.12448338E+01         YZ= -0.95253528E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1094737E-02 Y=  0.2544898E-08 Z=  0.4611403E-02  Total=      0.0047396
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174333E+02         XY= -0.54736877E-02         XZ=  0.18209629E-01
                YY= -0.10161239E+02         YZ=  0.23057014E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69857017E-01 Y= -0.17030732E-10 Z=  0.37542638E-07   Total=     0.06985702
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75272347E-01         XY= -0.66005315E+00         XZ= -0.58446719E+00
                YY=  0.12448343E+01         YZ=  0.35459051E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6271958E-02 Y=  0.2550749E-08 Z=  0.4611580E-02  Total=      0.0077849
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226105E+02         XY= -0.31359792E-01         XZ= -0.47160091E-02
                YY= -0.10161239E+02         YZ=  0.23057898E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51676404E-01 Y= -0.20259023E-10 Z=  0.13448132E-06   Total=     0.05167640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26828997E+00         XY= -0.48827126E+00         XZ= -0.43235579E+00
                YY=  0.12448338E+01         YZ=  0.12705013E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9062657E-02 Y=  0.2549810E-08 Z=  0.4611778E-02  Total=      0.0101686
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254012E+02         XY= -0.45313286E-01         XZ= -0.17073189E-01
                YY= -0.10161239E+02         YZ=  0.23058888E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13834259E-01 Y= -0.17490384E-10 Z=  0.55766259E-07   Total=     0.01383426
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98340296E+00         XY= -0.13071480E+00         XZ= -0.11574526E+00
                YY=  0.12448331E+01         YZ=  0.52677509E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8405043E-02 Y=  0.2550099E-08 Z=  0.4611725E-02  Total=      0.0095871
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247436E+02         XY= -0.42025216E-01         XZ= -0.14161293E-01
                YY= -0.10161239E+02         YZ=  0.23058625E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29271529E-01 Y= -0.10023524E-10 Z= -0.90777601E-07   Total=     0.02927153
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17979858E+01         XY=  0.27657587E+00         XZ=  0.24490358E+00
                YY=  0.12448331E+01         YZ= -0.85780113E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4549313E-02 Y=  0.2549594E-08 Z=  0.4611495E-02  Total=      0.0064778
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208879E+02         XY= -0.22746567E-01         XZ=  0.29120871E-02
                YY= -0.10161239E+02         YZ=  0.23057475E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61240388E-01 Y= -0.10881513E-11 Z= -0.10367298E-06   Total=     0.06124039
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24021106E+01         XY=  0.57863781E+00         XZ=  0.51237509E+00
                YY=  0.12448338E+01         YZ= -0.97956999E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1037541E-02 Y=  0.2548654E-08 Z=  0.4611405E-02  Total=      0.0047267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153010E+02         XY=  0.51877013E-02         XZ=  0.27652185E-01
                YY= -0.10161239E+02         YZ=  0.23057024E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69909031E-01 Y=  0.55782317E-11 Z=  0.34726653E-07   Total=     0.06990903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25659232E+01         XY=  0.66054462E+00         XZ=  0.58490371E+00
                YY=  0.12448343E+01         YZ=  0.32817283E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6229878E-02 Y=  0.2557034E-08 Z=  0.4611580E-02  Total=      0.0077510
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101087E+02         XY=  0.31149389E-01         XZ=  0.50646552E-01
                YY= -0.10161239E+02         YZ=  0.23057898E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51979259E-01 Y=  0.73342755E-11 Z=  0.13382596E-06   Total=     0.05197926
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22270981E+01         XY=  0.49113282E+00         XZ=  0.43489281E+00
                YY=  0.12448338E+01         YZ=  0.12645402E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9052161E-02 Y=  0.2558479E-08 Z=  0.4611780E-02  Total=      0.0101592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072864E+02         XY=  0.45260806E-01         XZ=  0.63145614E-01
                YY= -0.10161239E+02         YZ=  0.23058896E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14272836E-01 Y=  0.37229125E-11 Z=  0.57120754E-07   Total=     0.01427284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15145501E+01         XY=  0.13485876E+00         XZ=  0.11941629E+00
                YY=  0.12448331E+01         YZ=  0.53975060E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8430591E-02 Y=  0.2558046E-08 Z=  0.4611730E-02  Total=      0.0096095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079080E+02         XY=  0.42152956E-01         XZ=  0.60392844E-01
                YY= -0.10161239E+02         YZ=  0.23058647E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28863995E-01 Y= -0.34115625E-11 Z= -0.89953838E-07   Total=     0.02886400
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69938362E+00         XY= -0.27272523E+00         XZ= -0.24149515E+00
                YY=  0.12448330E+01         YZ= -0.84996280E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4601659E-02 Y=  0.2556962E-08 Z=  0.4611500E-02  Total=      0.0065147
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117369E+02         XY=  0.23008293E-01         XZ=  0.43435851E-01
                YY= -0.10161239E+02         YZ=  0.23057497E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61018870E-01 Y= -0.10796234E-10 Z= -0.10529706E-06   Total=     0.06101887
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91745434E-01         XY= -0.57654477E+00         XZ= -0.51052336E+00
                YY=  0.12448338E+01         YZ= -0.99499713E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9778335E-03 Y=  0.2557034E-08 Z=  0.4611407E-02  Total=      0.0047139
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173164E+02         XY= -0.48891692E-02         XZ=  0.18727451E-01
                YY= -0.10161239E+02         YZ=  0.23057033E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69957753E-01 Y= -0.15179674E-10 Z=  0.31553211E-07   Total=     0.06995775
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77175934E-01         XY= -0.66100497E+00         XZ= -0.58531048E+00
                YY=  0.12448343E+01         YZ=  0.29801380E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6185043E-02 Y=  0.2563970E-08 Z=  0.4611580E-02  Total=      0.0077150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225236E+02         XY= -0.30925218E-01         XZ= -0.43310272E-02
                YY= -0.10161239E+02         YZ=  0.23057896E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52279652E-01 Y= -0.14712563E-10 Z=  0.13133619E-06   Total=     0.05227965
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25689026E+00         XY= -0.49397113E+00         XZ= -0.43740344E+00
                YY=  0.12448338E+01         YZ=  0.12408303E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9038772E-02 Y=  0.2562958E-08 Z=  0.4611781E-02  Total=      0.0101473
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253774E+02         XY= -0.45193862E-01         XZ= -0.16967332E-01
                YY= -0.10161239E+02         YZ=  0.23058901E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14710608E-01 Y= -0.96663462E-11 Z=  0.55863066E-07   Total=     0.01471061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96684235E+00         XY= -0.13899510E+00         XZ= -0.12307782E+00
                YY=  0.12448331E+01         YZ=  0.52775506E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8453258E-02 Y=  0.2562958E-08 Z=  0.4611734E-02  Total=      0.0096294
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247918E+02         XY= -0.42266290E-01         XZ= -0.14374709E-01
                YY= -0.10161239E+02         YZ=  0.23058666E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28455387E-01 Y= -0.22087964E-11 Z= -0.91528945E-07   Total=     0.02845539
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17825629E+01         XY=  0.26886444E+00         XZ=  0.23807478E+00
                YY=  0.12448330E+01         YZ= -0.86483507E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4651275E-02 Y=  0.2563103E-08 Z=  0.4611504E-02  Total=      0.0065498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209898E+02         XY= -0.23256377E-01         XZ=  0.24606450E-02
                YY= -0.10161239E+02         YZ=  0.23057517E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60794857E-01 Y=  0.46179702E-11 Z= -0.10818976E-06   Total=     0.06079486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23936913E+01         XY=  0.57442815E+00         XZ=  0.50864712E+00
                YY=  0.12448338E+01         YZ= -0.10221998E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9206240E-03 Y=  0.2563897E-08 Z=  0.4611408E-02  Total=      0.0047024
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154179E+02         XY=  0.46031179E-02         XZ=  0.27134478E-01
                YY= -0.10161239E+02         YZ=  0.23057038E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70003530E-01 Y=  0.82350266E-11 Z=  0.28772997E-07   Total=     0.07000353
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25677090E+01         XY=  0.66143750E+00         XZ=  0.58569407E+00
                YY=  0.12448343E+01         YZ=  0.27194088E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6142482E-02 Y=  0.2571844E-08 Z=  0.4611579E-02  Total=      0.0076809
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101961E+02         XY=  0.30712410E-01         XZ=  0.50259545E-01
                YY= -0.10161239E+02         YZ=  0.23057891E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52577768E-01 Y=  0.75805206E-11 Z=  0.13087534E-06   Total=     0.05257777
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22384083E+01         XY=  0.49678791E+00         XZ=  0.43990020E+00
                YY=  0.12448338E+01         YZ=  0.12366626E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9027525E-02 Y=  0.2572783E-08 Z=  0.4611781E-02  Total=      0.0101373
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073111E+02         XY=  0.45137626E-01         XZ=  0.63036543E-01
                YY= -0.10161239E+02         YZ=  0.23058903E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15147607E-01 Y=  0.34431600E-11 Z=  0.57685444E-07   Total=     0.01514761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15310808E+01         XY=  0.14312415E+00         XZ=  0.12673523E+00
                YY=  0.12448331E+01         YZ=  0.54508346E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8478074E-02 Y=  0.2572638E-08 Z=  0.4611737E-02  Total=      0.0096512
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078605E+02         XY=  0.42390367E-01         XZ=  0.60603171E-01
                YY= -0.10161239E+02         YZ=  0.23058683E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28045797E-01 Y= -0.20216984E-11 Z= -0.89922233E-07   Total=     0.02804580
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71484528E+00         XY= -0.26499438E+00         XZ= -0.23464942E+00
                YY=  0.12448330E+01         YZ= -0.84965276E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4703178E-02 Y=  0.2572060E-08 Z=  0.4611508E-02  Total=      0.0065868
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116354E+02         XY=  0.23515890E-01         XZ=  0.43885484E-01
                YY= -0.10161239E+02         YZ=  0.23057536E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60568545E-01 Y= -0.63269129E-11 Z= -0.10876335E-06   Total=     0.06056854
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10025535E+00         XY= -0.57228981E+00         XZ= -0.50675544E+00
                YY=  0.12448337E+01         YZ= -0.10277114E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8609184E-03 Y=  0.2572566E-08 Z=  0.4611409E-02  Total=      0.0046911
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171995E+02         XY= -0.43045937E-02         XZ=  0.19245247E-01
                YY= -0.10161239E+02         YZ=  0.23057044E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70046635E-01 Y= -0.77441742E-11 Z=  0.26855026E-07   Total=     0.07004663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.78855533E-01         XY= -0.66184478E+00         XZ= -0.58605388E+00
                YY=  0.12448342E+01         YZ=  0.25368477E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6097232E-02 Y=  0.2580729E-08 Z=  0.4611578E-02  Total=      0.0076448
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224358E+02         XY= -0.30486162E-01         XZ= -0.39421220E-02
                YY= -0.10161239E+02         YZ=  0.23057887E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52873933E-01 Y= -0.59667177E-11 Z=  0.12983123E-06   Total=     0.05287393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24565999E+00         XY= -0.49958627E+00         XZ= -0.44237533E+00
                YY=  0.12448338E+01         YZ=  0.12266839E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9013493E-02 Y=  0.2581452E-08 Z=  0.4611781E-02  Total=      0.0101248
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253521E+02         XY= -0.45067466E-01         XZ= -0.16855316E-01
                YY= -0.10161239E+02         YZ=  0.23058905E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15584200E-01 Y= -0.20913410E-11 Z=  0.58056208E-07   Total=     0.01558420
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95033382E+00         XY= -0.14724935E+00         XZ= -0.13038665E+00
                YY=  0.12448331E+01         YZ=  0.54854079E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8500149E-02 Y=  0.2581452E-08 Z=  0.4611740E-02  Total=      0.0096706
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248387E+02         XY= -0.42500748E-01         XZ= -0.14582256E-01
                YY= -0.10161239E+02         YZ=  0.23058699E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27634834E-01 Y=  0.20126169E-11 Z= -0.89784332E-07   Total=     0.02763483
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17670567E+01         XY=  0.26111134E+00         XZ=  0.23120957E+00
                YY=  0.12448330E+01         YZ= -0.84831556E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4752520E-02 Y=  0.2581307E-08 Z=  0.4611511E-02  Total=      0.0066221
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210911E+02         XY= -0.23762600E-01         XZ=  0.20124053E-02
                YY= -0.10161239E+02         YZ=  0.23057554E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60339513E-01 Y=  0.46058218E-11 Z= -0.11007152E-06   Total=     0.06033951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23850865E+01         XY=  0.57012577E+00         XZ=  0.50483729E+00
                YY=  0.12448337E+01         YZ= -0.10399801E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8035210E-03 Y=  0.2581813E-08 Z=  0.4611410E-02  Total=      0.0046809
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155350E+02         XY=  0.40176032E-02         XZ=  0.26615978E-01
                YY= -0.10161239E+02         YZ=  0.23057049E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70086614E-01 Y=  0.48189369E-11 Z=  0.25306516E-07   Total=     0.07008661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25692791E+01         XY=  0.66222253E+00         XZ=  0.58638892E+00
                YY=  0.12448342E+01         YZ=  0.23915855E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6054047E-02 Y=  0.2590193E-08 Z=  0.4611577E-02  Total=      0.0076104
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102845E+02         XY=  0.30270235E-01         XZ=  0.49867963E-01
                YY= -0.10161239E+02         YZ=  0.23057881E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53167647E-01 Y=  0.29114635E-11 Z=  0.13014752E-06   Total=     0.05316765
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22495554E+01         XY=  0.50236146E+00         XZ=  0.44483513E+00
                YY=  0.12448338E+01         YZ=  0.12297464E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9001375E-02 Y=  0.2591493E-08 Z=  0.4611782E-02  Total=      0.0101140
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073372E+02         XY=  0.45006872E-01         XZ=  0.62920774E-01
                YY= -0.10161239E+02         YZ=  0.23058907E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16019823E-01 Y= -0.14813027E-13 Z=  0.60256235E-07   Total=     0.01601982
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15475633E+01         XY=  0.15136539E+00         XZ=  0.13403233E+00
                YY=  0.12448330E+01         YZ=  0.56934497E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8524123E-02 Y=  0.2591421E-08 Z=  0.4611744E-02  Total=      0.0096917
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078145E+02         XY=  0.42620615E-01         XZ=  0.60807141E-01
                YY= -0.10161239E+02         YZ=  0.23058716E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27223135E-01 Y= -0.26517917E-11 Z= -0.88063991E-07   Total=     0.02722313
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73039130E+00         XY= -0.25722135E+00         XZ= -0.22776693E+00
                YY=  0.12448329E+01         YZ= -0.83210006E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4803870E-02 Y=  0.2590193E-08 Z=  0.4611515E-02  Total=      0.0066591
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115347E+02         XY=  0.24019350E-01         XZ=  0.44331416E-01
                YY= -0.10161239E+02         YZ=  0.23057573E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60108484E-01 Y= -0.41235353E-11 Z= -0.11066237E-06   Total=     0.06010848
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10894923E+00         XY= -0.56794286E+00         XZ= -0.50290671E+00
                YY=  0.12448337E+01         YZ= -0.10456360E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7439363E-03 Y=  0.2589904E-08 Z=  0.4611411E-02  Total=      0.0046710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170825E+02         XY= -0.37196836E-02         XZ=  0.19763273E-01
                YY= -0.10161239E+02         YZ=  0.23057054E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70124276E-01 Y= -0.43160765E-11 Z=  0.23357617E-07   Total=     0.07012428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80322712E-01         XY= -0.66257838E+00         XZ= -0.58670385E+00
                YY=  0.12448342E+01         YZ=  0.22066774E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6008516E-02 Y=  0.2597923E-08 Z=  0.4611576E-02  Total=      0.0075742
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223471E+02         XY= -0.30042582E-01         XZ= -0.35493007E-02
                YY= -0.10161239E+02         YZ=  0.23057877E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53459798E-01 Y= -0.37717022E-11 Z=  0.12917741E-06   Total=     0.05345980
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23458876E+00         XY= -0.50512189E+00         XZ= -0.44727730E+00
                YY=  0.12448338E+01         YZ=  0.12205244E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8986849E-02 Y=  0.2598139E-08 Z=  0.4611782E-02  Total=      0.0101011
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253254E+02         XY= -0.44934248E-01         XZ= -0.16737368E-01
                YY= -0.10161239E+02         YZ=  0.23058909E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16455437E-01 Y= -0.32557506E-11 Z=  0.60900685E-07   Total=     0.01645544
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93386980E+00         XY= -0.15548135E+00         XZ= -0.13767610E+00
                YY=  0.12448330E+01         YZ=  0.57540695E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8545771E-02 Y=  0.2598428E-08 Z=  0.4611747E-02  Total=      0.0097107
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248843E+02         XY= -0.42728859E-01         XZ= -0.14784303E-01
                YY= -0.10161239E+02         YZ=  0.23058732E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26809674E-01 Y= -0.32644969E-11 Z= -0.87438153E-07   Total=     0.02680967
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17514634E+01         XY=  0.25331471E+00         XZ=  0.22430572E+00
                YY=  0.12448329E+01         YZ= -0.82619219E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4853108E-02 Y=  0.2597634E-08 Z=  0.4611519E-02  Total=      0.0066947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211917E+02         XY= -0.24265541E-01         XZ=  0.15669518E-02
                YY= -0.10161239E+02         YZ=  0.23057591E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59874374E-01 Y= -0.37542453E-11 Z= -0.11133968E-06   Total=     0.05987437
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23762967E+01         XY=  0.56573085E+00         XZ=  0.50094564E+00
                YY=  0.12448336E+01         YZ= -0.10520332E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6861797E-03 Y=  0.2595611E-08 Z=  0.4611412E-02  Total=      0.0046622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156524E+02         XY=  0.34308966E-02         XZ=  0.26096310E-01
                YY= -0.10161239E+02         YZ=  0.23057059E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70158487E-01 Y= -0.42344708E-11 Z=  0.22496527E-07   Total=     0.07015849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25706373E+01         XY=  0.66290163E+00         XZ=  0.58699028E+00
                YY=  0.12448342E+01         YZ=  0.21253166E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5964542E-02 Y=  0.2601246E-08 Z=  0.4611575E-02  Total=      0.0075394
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103740E+02         XY=  0.29822707E-01         XZ=  0.49471543E-01
                YY= -0.10161239E+02         YZ=  0.23057872E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53749216E-01 Y= -0.41515261E-11 Z=  0.13020235E-06   Total=     0.05374922
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22605455E+01         XY=  0.50785649E+00         XZ=  0.44970098E+00
                YY=  0.12448338E+01         YZ=  0.12302049E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8973705E-02 Y=  0.2600596E-08 Z=  0.4611783E-02  Total=      0.0100894
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073649E+02         XY=  0.44868523E-01         XZ=  0.62798200E-01
                YY= -0.10161239E+02         YZ=  0.23058911E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16889848E-01 Y= -0.33262361E-11 Z=  0.63826388E-07   Total=     0.01688985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15640044E+01         XY=  0.15958593E+00         XZ=  0.14131161E+00
                YY=  0.12448330E+01         YZ=  0.60304976E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8568765E-02 Y=  0.2601968E-08 Z=  0.4611750E-02  Total=      0.0097310
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077698E+02         XY=  0.42843822E-01         XZ=  0.61004815E-01
                YY= -0.10161239E+02         YZ=  0.23058749E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26395656E-01 Y= -0.21718399E-11 Z= -0.85016724E-07   Total=     0.02639566
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74602836E+00         XY= -0.24940281E+00         XZ= -0.22084365E+00
                YY=  0.12448329E+01         YZ= -0.80330429E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4903786E-02 Y=  0.2603124E-08 Z=  0.4611523E-02  Total=      0.0067315
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114348E+02         XY=  0.24518930E-01         XZ=  0.44773869E-01
                YY= -0.10161239E+02         YZ=  0.23057611E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59638383E-01 Y= -0.15389506E-11 Z= -0.11133837E-06   Total=     0.05963838
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11783285E+00         XY= -0.56350105E+00         XZ= -0.49897356E+00
                YY=  0.12448336E+01         YZ= -0.10520027E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6268137E-03 Y=  0.2603846E-08 Z=  0.4611414E-02  Total=      0.0046538
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169654E+02         XY= -0.31340706E-02         XZ=  0.20281895E-01
                YY= -0.10161239E+02         YZ=  0.23057067E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70190427E-01 Y= -0.22438966E-11 Z=  0.20989652E-07   Total=     0.07019043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81572753E-01         XY= -0.66320342E+00         XZ= -0.58725740E+00
                YY=  0.12448342E+01         YZ=  0.19830976E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5918802E-02 Y=  0.2610926E-08 Z=  0.4611574E-02  Total=      0.0075033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222574E+02         XY= -0.29594014E-01         XZ= -0.31520819E-02
                YY= -0.10161239E+02         YZ=  0.23057868E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54037055E-01 Y= -0.45291425E-11 Z=  0.12959518E-06   Total=     0.05403705
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22368022E+00         XY= -0.51057617E+00         XZ= -0.45210711E+00
                YY=  0.12448338E+01         YZ=  0.12244639E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8958734E-02 Y=  0.2610926E-08 Z=  0.4611783E-02  Total=      0.0100761
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252973E+02         XY= -0.44793671E-01         XZ= -0.16612922E-01
                YY= -0.10161239E+02         YZ=  0.23058914E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17324187E-01 Y= -0.77689714E-11 Z=  0.64882217E-07   Total=     0.01732419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91745280E+00         XY= -0.16368984E+00         XZ= -0.14494474E+00
                YY=  0.12448330E+01         YZ=  0.61298773E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8590008E-02 Y=  0.2611359E-08 Z=  0.4611754E-02  Total=      0.0097497
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249286E+02         XY= -0.42950042E-01         XZ= -0.14980235E-01
                YY= -0.10161239E+02         YZ=  0.23058766E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25979957E-01 Y= -0.10627538E-10 Z= -0.83885565E-07   Total=     0.02597996
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17357840E+01         XY=  0.24547502E+00         XZ=  0.21736361E+00
                YY=  0.12448329E+01         YZ= -0.79268813E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4952922E-02 Y=  0.2609842E-08 Z=  0.4611527E-02  Total=      0.0067674
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212915E+02         XY= -0.24764613E-01         XZ=  0.11248972E-02
                YY= -0.10161239E+02         YZ=  0.23057631E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59399374E-01 Y= -0.11647074E-10 Z= -0.11152147E-06   Total=     0.05939937
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23673205E+01         XY=  0.56124275E+00         XZ=  0.49697126E+00
                YY=  0.12448336E+01         YZ= -0.10538182E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5687077E-03 Y=  0.2607603E-08 Z=  0.4611415E-02  Total=      0.0046464
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157698E+02         XY=  0.28435364E-02         XZ=  0.25576025E-01
                YY= -0.10161239E+02         YZ=  0.23057074E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70218932E-01 Y= -0.10007649E-10 Z=  0.20439333E-07   Total=     0.07021893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25717796E+01         XY=  0.66347275E+00         XZ=  0.58749574E+00
                YY=  0.12448342E+01         YZ=  0.19304433E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5874051E-02 Y=  0.2613310E-08 Z=  0.4611573E-02  Total=      0.0074680
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104645E+02         XY=  0.29370252E-01         XZ=  0.49070707E-01
                YY= -0.10161239E+02         YZ=  0.23057865E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54322108E-01 Y= -0.60734696E-11 Z=  0.13065890E-06   Total=     0.05432211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22713717E+01         XY=  0.51326953E+00         XZ=  0.45449392E+00
                YY=  0.12448338E+01         YZ=  0.12345012E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8944568E-02 Y=  0.2613382E-08 Z=  0.4611784E-02  Total=      0.0100635
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073940E+02         XY=  0.44722840E-01         XZ=  0.62669063E-01
                YY= -0.10161239E+02         YZ=  0.23058918E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17757205E-01 Y= -0.14081995E-11 Z=  0.67645585E-07   Total=     0.01775721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15803950E+01         XY=  0.16778127E+00         XZ=  0.14856829E+00
                YY=  0.12448330E+01         YZ=  0.63915047E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8612010E-02 Y=  0.2614105E-08 Z=  0.4611757E-02  Total=      0.0097691
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077266E+02         XY=  0.43060050E-01         XZ=  0.61196232E-01
                YY= -0.10161239E+02         YZ=  0.23058785E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25563860E-01 Y=  0.18170906E-11 Z= -0.81640313E-07   Total=     0.02556386
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76174703E+00         XY= -0.24154348E+00         XZ= -0.21388447E+00
                YY=  0.12448329E+01         YZ= -0.77137001E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5002901E-02 Y=  0.2614105E-08 Z=  0.4611531E-02  Total=      0.0068041
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113357E+02         XY=  0.25014503E-01         XZ=  0.45212690E-01
                YY= -0.10161239E+02         YZ=  0.23057653E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59158651E-01 Y=  0.18001165E-11 Z= -0.11149597E-06   Total=     0.05915865
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12689851E+00         XY= -0.55896825E+00         XZ= -0.49495996E+00
                YY=  0.12448336E+01         YZ= -0.10534654E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5096015E-03 Y=  0.2613671E-08 Z=  0.4611417E-02  Total=      0.0046395
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168482E+02         XY= -0.25480095E-02         XZ=  0.20800825E-01
                YY= -0.10161239E+02         YZ=  0.23057083E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70245306E-01 Y= -0.19731472E-11 Z=  0.19329746E-07   Total=     0.07024531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82609729E-01         XY= -0.66372195E+00         XZ= -0.58771665E+00
                YY=  0.12448342E+01         YZ=  0.18262678E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5828151E-02 Y=  0.2621690E-08 Z=  0.4611573E-02  Total=      0.0074320
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221667E+02         XY= -0.29140757E-01         XZ= -0.27507979E-02
                YY= -0.10161239E+02         YZ=  0.23057864E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54605669E-01 Y= -0.83251806E-11 Z=  0.13089804E-06   Total=     0.05460567
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21293505E+00         XY= -0.51594880E+00         XZ= -0.45686452E+00
                YY=  0.12448338E+01         YZ=  0.12367411E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8929195E-02 Y=  0.2622701E-08 Z=  0.4611785E-02  Total=      0.0100498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252678E+02         XY= -0.44645979E-01         XZ= -0.16482257E-01
                YY= -0.10161239E+02         YZ=  0.23058922E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18190179E-01 Y= -0.14748851E-10 Z=  0.69914573E-07   Total=     0.01819018
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90108796E+00         XY= -0.17187228E+00         XZ= -0.15219013E+00
                YY=  0.12448331E+01         YZ=  0.66047696E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8632881E-02 Y=  0.2622485E-08 Z=  0.4611761E-02  Total=      0.0097875
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249715E+02         XY= -0.43164405E-01         XZ= -0.15170205E-01
                YY= -0.10161239E+02         YZ=  0.23058804E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25146107E-01 Y= -0.18436722E-10 Z= -0.79186223E-07   Total=     0.02514611
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17200266E+01         XY=  0.23759628E+00         XZ=  0.21038716E+00
                YY=  0.12448329E+01         YZ= -0.74835241E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5051951E-02 Y=  0.2621112E-08 Z=  0.4611536E-02  Total=      0.0068402
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213905E+02         XY= -0.25259756E-01         XZ=  0.68625592E-03
                YY= -0.10161239E+02         YZ=  0.23057676E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58914968E-01 Y= -0.17549268E-10 Z= -0.11057847E-06   Total=     0.05891497
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23581666E+01         XY=  0.55666577E+00         XZ=  0.49291843E+00
                YY=  0.12448336E+01         YZ= -0.10449590E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4511483E-03 Y=  0.2618728E-08 Z=  0.4611419E-02  Total=      0.0046334
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158874E+02         XY=  0.22557398E-02         XZ=  0.25055296E-01
                YY= -0.10161239E+02         YZ=  0.23057094E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70268312E-01 Y= -0.12143012E-10 Z=  0.19437898E-07   Total=     0.07026831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25727129E+01         XY=  0.66393932E+00         XZ=  0.58790887E+00
                YY=  0.12448342E+01         YZ=  0.18356278E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5782639E-02 Y=  0.2624363E-08 Z=  0.4611573E-02  Total=      0.0073963
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105559E+02         XY=  0.28913193E-01         XZ=  0.48665745E-01
                YY= -0.10161239E+02         YZ=  0.23057864E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54886513E-01 Y= -0.42968428E-11 Z=  0.13219598E-06   Total=     0.05488651
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22820375E+01         XY=  0.51860239E+00         XZ=  0.45921607E+00
                YY=  0.12448338E+01         YZ=  0.12490377E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8914036E-02 Y=  0.2625663E-08 Z=  0.4611786E-02  Total=      0.0100364
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074245E+02         XY=  0.44570176E-01         XZ=  0.62533706E-01
                YY= -0.10161239E+02         YZ=  0.23058929E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18621905E-01 Y=  0.26821582E-11 Z=  0.72684851E-07   Total=     0.01862190
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15967355E+01         XY=  0.17595150E+00         XZ=  0.15580288E+00
                YY=  0.12448331E+01         YZ=  0.68679730E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8653927E-02 Y=  0.2627325E-08 Z=  0.4611766E-02  Total=      0.0098061
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076846E+02         XY=  0.43269631E-01         XZ=  0.61381729E-01
                YY= -0.10161239E+02         YZ=  0.23058826E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24727865E-01 Y=  0.56717516E-11 Z= -0.76977495E-07   Total=     0.02472787
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77754507E+00         XY= -0.23364447E+00         XZ= -0.20689008E+00
                YY=  0.12448329E+01         YZ= -0.72728209E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5101271E-02 Y=  0.2626747E-08 Z=  0.4611541E-02  Total=      0.0068767
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112373E+02         XY=  0.25506353E-01         XZ=  0.45648185E-01
                YY= -0.10161239E+02         YZ=  0.23057701E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58669443E-01 Y=  0.31570023E-11 Z= -0.11060703E-06   Total=     0.05866944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13614326E+00         XY= -0.55434590E+00         XZ= -0.49086707E+00
                YY=  0.12448336E+01         YZ= -0.10450565E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3922521E-03 Y=  0.2625735E-08 Z=  0.4611422E-02  Total=      0.0046281
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167308E+02         XY= -0.19612622E-02         XZ=  0.21320336E-01
                YY= -0.10161239E+02         YZ=  0.23057107E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70289017E-01 Y= -0.39884997E-11 Z=  0.18145168E-07   Total=     0.07028902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83435671E-01         XY= -0.66413497E+00         XZ= -0.58808256E+00
                YY=  0.12448342E+01         YZ=  0.17141544E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5736517E-02 Y=  0.2631442E-08 Z=  0.4611574E-02  Total=      0.0073603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220751E+02         XY= -0.28682585E-01         XZ= -0.23451912E-02
                YY= -0.10161239E+02         YZ=  0.23057866E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55165660E-01 Y= -0.12755258E-10 Z=  0.13200231E-06   Total=     0.05516566
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20235282E+00         XY= -0.52123995E+00         XZ= -0.46154993E+00
                YY=  0.12448339E+01         YZ=  0.12471358E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8898185E-02 Y=  0.2630648E-08 Z=  0.4611788E-02  Total=      0.0100223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252368E+02         XY= -0.44490925E-01         XZ= -0.16345109E-01
                YY= -0.10161239E+02         YZ=  0.23058937E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19053367E-01 Y= -0.19223642E-10 Z=  0.74234644E-07   Total=     0.01905337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88477611E+00         XY= -0.18002823E+00         XZ= -0.15941222E+00
                YY=  0.12448331E+01         YZ=  0.70125590E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8674334E-02 Y=  0.2629492E-08 Z=  0.4611770E-02  Total=      0.0098241
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250129E+02         XY= -0.43371671E-01         XZ= -0.15353929E-01
                YY= -0.10161239E+02         YZ=  0.23058848E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24308171E-01 Y= -0.20259169E-10 Z= -0.75484323E-07   Total=     0.02430817
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17041919E+01         XY=  0.22967893E+00         XZ=  0.20337638E+00
                YY=  0.12448329E+01         YZ= -0.71339234E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5150135E-02 Y=  0.2628264E-08 Z=  0.4611546E-02  Total=      0.0069130
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214887E+02         XY= -0.25750676E-01         XZ=  0.25131024E-03
                YY= -0.10161239E+02         YZ=  0.23057727E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58421122E-01 Y= -0.14935452E-10 Z= -0.11080544E-06   Total=     0.05842112
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23488343E+01         XY=  0.55199960E+00         XZ=  0.48878656E+00
                YY=  0.12448336E+01         YZ= -0.10470842E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3335535E-03 Y=  0.2627614E-08 Z=  0.4611424E-02  Total=      0.0046235
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160050E+02         XY=  0.16677656E-02         XZ=  0.24534367E-01
                YY= -0.10161239E+02         YZ=  0.23057120E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70306470E-01 Y= -0.50352826E-11 Z=  0.17098151E-07   Total=     0.07030647
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25734340E+01         XY=  0.66429986E+00         XZ=  0.58822813E+00
                YY=  0.12448342E+01         YZ=  0.16151221E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5690340E-02 Y=  0.2634188E-08 Z=  0.4611574E-02  Total=      0.0073244
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106482E+02         XY=  0.28451700E-01         XZ=  0.48256816E-01
                YY= -0.10161239E+02         YZ=  0.23057868E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55442166E-01 Y=  0.56277251E-11 Z=  0.13224294E-06   Total=     0.05544217
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22925379E+01         XY=  0.52385255E+00         XZ=  0.46386511E+00
                YY=  0.12448339E+01         YZ=  0.12495619E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8882117E-02 Y=  0.2635921E-08 Z=  0.4611789E-02  Total=      0.0100080
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074564E+02         XY=  0.44410584E-01         XZ=  0.62392176E-01
                YY= -0.10161239E+02         YZ=  0.23058945E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19483645E-01 Y=  0.12806203E-10 Z=  0.76156411E-07   Total=     0.01948364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16130201E+01         XY=  0.18409377E+00         XZ=  0.16301293E+00
                YY=  0.12448331E+01         YZ=  0.71968084E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8694500E-02 Y=  0.2638233E-08 Z=  0.4611775E-02  Total=      0.0098419
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076441E+02         XY=  0.43472496E-01         XZ=  0.61561252E-01
                YY= -0.10161239E+02         YZ=  0.23058871E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23887900E-01 Y=  0.13655423E-10 Z= -0.73888980E-07   Total=     0.02388790
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79341814E+00         XY= -0.22570794E+00         XZ= -0.19986221E+00
                YY=  0.12448330E+01         YZ= -0.69803585E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5198867E-02 Y=  0.2639028E-08 Z=  0.4611551E-02  Total=      0.0069494
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111397E+02         XY=  0.25994335E-01         XZ=  0.46080242E-01
                YY= -0.10161239E+02         YZ=  0.23057753E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58170820E-01 Y=  0.80016443E-11 Z= -0.11125796E-06   Total=     0.05817082
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14556592E+00         XY= -0.54963459E+00         XZ= -0.48669513E+00
                YY=  0.12448336E+01         YZ= -0.10511693E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2747936E-03 Y=  0.2640256E-08 Z=  0.4611427E-02  Total=      0.0046196
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166133E+02         XY= -0.13739700E-02         XZ=  0.21840329E-01
                YY= -0.10161239E+02         YZ=  0.23057134E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70321421E-01 Y= -0.15289225E-11 Z=  0.15543511E-07   Total=     0.07032142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84047918E-01         XY= -0.66444113E+00         XZ= -0.58835358E+00
                YY=  0.12448342E+01         YZ=  0.14685078E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5643912E-02 Y=  0.2647046E-08 Z=  0.4611575E-02  Total=      0.0072884
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219825E+02         XY= -0.28219560E-01         XZ= -0.19352786E-02
                YY= -0.10161239E+02         YZ=  0.23057871E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55716726E-01 Y= -0.10602870E-10 Z=  0.13200023E-06   Total=     0.05571673
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19193926E+00         XY= -0.52644676E+00         XZ= -0.46616046E+00
                YY=  0.12448339E+01         YZ=  0.12471309E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8865689E-02 Y=  0.2646252E-08 Z=  0.4611791E-02  Total=      0.0099935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252043E+02         XY= -0.44328449E-01         XZ= -0.16201373E-01
                YY= -0.10161239E+02         YZ=  0.23058953E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19913397E-01 Y= -0.15036126E-10 Z=  0.77932517E-07   Total=     0.01991340
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86852392E+00         XY= -0.18815433E+00         XZ= -0.16660780E+00
                YY=  0.12448331E+01         YZ=  0.73622776E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8714332E-02 Y=  0.2645457E-08 Z=  0.4611779E-02  Total=      0.0098594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250529E+02         XY= -0.43571662E-01         XZ= -0.15531194E-01
                YY= -0.10161239E+02         YZ=  0.23058894E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23466412E-01 Y= -0.12612775E-10 Z= -0.71956573E-07   Total=     0.02346641
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16882849E+01         XY=  0.22172546E+00         XZ=  0.19633359E+00
                YY=  0.12448330E+01         YZ= -0.67999872E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5247427E-02 Y=  0.2643940E-08 Z=  0.4611556E-02  Total=      0.0069858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215860E+02         XY= -0.26237139E-01         XZ= -0.17967420E-03
                YY= -0.10161239E+02         YZ=  0.23057780E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57917897E-01 Y= -0.40693157E-11 Z= -0.11103795E-06   Total=     0.05791790
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23393248E+01         XY=  0.54724482E+00         XZ=  0.48457606E+00
                YY=  0.12448336E+01         YZ= -0.10491927E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2159637E-03 Y=  0.2643651E-08 Z=  0.4611430E-02  Total=      0.0046165
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161226E+02         XY=  0.10798167E-02         XZ=  0.24013466E-01
                YY= -0.10161239E+02         YZ=  0.23057149E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70333220E-01 Y=  0.71935893E-11 Z=  0.14609511E-07   Total=     0.07033322
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25739396E+01         XY=  0.66455261E+00         XZ=  0.58845169E+00
                YY=  0.12448342E+01         YZ=  0.13809800E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5597171E-02 Y=  0.2650369E-08 Z=  0.4611575E-02  Total=      0.0072522
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107414E+02         XY=  0.27985855E-01         XZ=  0.47844026E-01
                YY= -0.10161239E+02         YZ=  0.23057874E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55988679E-01 Y=  0.16556751E-10 Z=  0.13189612E-06   Total=     0.05598868
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23028655E+01         XY=  0.52901635E+00         XZ=  0.46843736E+00
                YY=  0.12448339E+01         YZ=  0.12463742E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8848793E-02 Y=  0.2651525E-08 Z=  0.4611793E-02  Total=      0.0099785
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074898E+02         XY=  0.44243961E-01         XZ=  0.62244402E-01
                YY= -0.10161239E+02         YZ=  0.23058962E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20341958E-01 Y=  0.20160992E-10 Z=  0.79111548E-07   Total=     0.02034196
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16292399E+01         XY=  0.19220365E+00         XZ=  0.17019397E+00
                YY=  0.12448331E+01         YZ=  0.74766226E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8733673E-02 Y=  0.2654487E-08 Z=  0.4611784E-02  Total=      0.0098765
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076049E+02         XY=  0.43668364E-01         XZ=  0.61734549E-01
                YY= -0.10161239E+02         YZ=  0.23058918E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23044363E-01 Y=  0.16561982E-10 Z= -0.71299816E-07   Total=     0.02304436
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80935867E+00         XY= -0.21773767E+00         XZ= -0.19280471E+00
                YY=  0.12448330E+01         YZ= -0.67354949E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5295609E-02 Y=  0.2655932E-08 Z=  0.4611562E-02  Total=      0.0070221
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110429E+02         XY=  0.26478045E-01         XZ=  0.46508478E-01
                YY= -0.10161239E+02         YZ=  0.23057807E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57662988E-01 Y=  0.73433827E-11 Z= -0.11240201E-06   Total=     0.05766299
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15516257E+00         XY= -0.54483628E+00         XZ= -0.48244629E+00
                YY=  0.12448336E+01         YZ= -0.10619862E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1573140E-03 Y=  0.2657666E-08 Z=  0.4611433E-02  Total=      0.0046141
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164958E+02         XY= -0.78657194E-03         XZ=  0.22360379E-01
                YY= -0.10161239E+02         YZ=  0.23057164E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70342472E-01 Y= -0.35745027E-11 Z=  0.12340971E-07   Total=     0.07034247
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84445675E-01         XY= -0.66464004E+00         XZ= -0.58852961E+00
                YY=  0.12448342E+01         YZ=  0.11657263E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5550411E-02 Y=  0.2665396E-08 Z=  0.4611576E-02  Total=      0.0072162
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218890E+02         XY= -0.27752057E-01         XZ= -0.15214289E-02
                YY= -0.10161239E+02         YZ=  0.23057878E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56258595E-01 Y= -0.11623294E-10 Z=  0.13123071E-06   Total=     0.05625859
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18169947E+00         XY= -0.53156668E+00         XZ= -0.47069385E+00
                YY=  0.12448339E+01         YZ=  0.12398505E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8831756E-02 Y=  0.2664673E-08 Z=  0.4611794E-02  Total=      0.0099634
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251703E+02         XY= -0.44158782E-01         XZ= -0.16051284E-01
                YY= -0.10161239E+02         YZ=  0.23058970E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20769857E-01 Y= -0.13535888E-10 Z=  0.80748790E-07   Total=     0.02076986
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85233918E+00         XY= -0.19624671E+00         XZ= -0.17377315E+00
                YY=  0.12448331E+01         YZ=  0.76284959E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8752886E-02 Y=  0.2663662E-08 Z=  0.4611789E-02  Total=      0.0098935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250914E+02         XY= -0.43764431E-01         XZ= -0.15702059E-01
                YY= -0.10161239E+02         YZ=  0.23058941E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22621274E-01 Y= -0.87130603E-11 Z= -0.69342924E-07   Total=     0.02262127
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16723141E+01         XY=  0.21374006E+00         XZ=  0.18926299E+00
                YY=  0.12448330E+01         YZ= -0.65527109E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5343805E-02 Y=  0.2661928E-08 Z=  0.4611567E-02  Total=      0.0070585
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216823E+02         XY= -0.26719026E-01         XZ= -0.60657914E-03
                YY= -0.10161239E+02         YZ=  0.23057835E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57405675E-01 Y=  0.57326807E-12 Z= -0.11216965E-06   Total=     0.05740567
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23296452E+01         XY=  0.54240502E+00         XZ=  0.48029080E+00
                YY=  0.12448336E+01         YZ= -0.10598472E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9842929E-04 Y=  0.2661278E-08 Z=  0.4611436E-02  Total=      0.0046125
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162401E+02         XY=  0.49214448E-03         XZ=  0.23492860E-01
                YY= -0.10161239E+02         YZ=  0.23057180E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70348832E-01 Y=  0.10208970E-10 Z=  0.11302156E-07   Total=     0.07034883
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25742347E+01         XY=  0.66470013E+00         XZ=  0.58858255E+00
                YY=  0.12448342E+01         YZ=  0.10687295E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5503199E-02 Y=  0.2669008E-08 Z=  0.4611577E-02  Total=      0.0071800
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108353E+02         XY=  0.27515991E-01         XZ=  0.47427747E-01
                YY= -0.10161239E+02         YZ=  0.23057882E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56526212E-01 Y=  0.16033421E-10 Z=  0.13095747E-06   Total=     0.05652621
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23130235E+01         XY=  0.53409530E+00         XZ=  0.47293489E+00
                YY=  0.12448339E+01         YZ=  0.12375006E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8814138E-02 Y=  0.2671608E-08 Z=  0.4611796E-02  Total=      0.0099477
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075244E+02         XY=  0.44070688E-01         XZ=  0.62090821E-01
                YY= -0.10161239E+02         YZ=  0.23058979E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21196925E-01 Y=  0.15612467E-10 Z=  0.81857699E-07   Total=     0.02119693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16453964E+01         XY=  0.20028192E+00         XZ=  0.17734730E+00
                YY=  0.12448331E+01         YZ=  0.77357131E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8771526E-02 Y=  0.2673992E-08 Z=  0.4611793E-02  Total=      0.0099100
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075670E+02         XY=  0.43857630E-01         XZ=  0.61902092E-01
                YY= -0.10161239E+02         YZ=  0.23058965E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22197221E-01 Y=  0.92283120E-11 Z= -0.68527884E-07   Total=     0.02219722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82536729E+00         XY= -0.20973334E+00         XZ= -0.18571694E+00
                YY=  0.12448329E+01         YZ= -0.64742004E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5391575E-02 Y=  0.2674787E-08 Z=  0.4611573E-02  Total=      0.0070948
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109470E+02         XY=  0.26957875E-01         XZ=  0.46933374E-01
                YY= -0.10161239E+02         YZ=  0.23057863E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57145953E-01 Y= -0.32098545E-12 Z= -0.11315055E-06   Total=     0.05714595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16493311E+00         XY= -0.53995100E+00         XZ= -0.47812050E+00
                YY=  0.12448336E+01         YZ= -0.10691232E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3973782E-04 Y=  0.2674859E-08 Z=  0.4611440E-02  Total=      0.0046116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163783E+02         XY= -0.19869108E-03         XZ=  0.22880946E-01
                YY= -0.10161239E+02         YZ=  0.23057196E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70352236E-01 Y= -0.89896000E-11 Z=  0.95342485E-08   Total=     0.07035224
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84630167E-01         XY= -0.66473229E+00         XZ= -0.58861143E+00
                YY=  0.12448342E+01         YZ=  0.90007547E-07         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5455948E-02 Y=  0.2681361E-08 Z=  0.4611578E-02  Total=      0.0071438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217945E+02         XY= -0.27279744E-01         XZ= -0.11032440E-02
                YY= -0.10161239E+02         YZ=  0.23057886E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56791435E-01 Y= -0.13241544E-10 Z=  0.13079096E-06   Total=     0.05679143
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17163025E+00         XY= -0.53660129E+00         XZ= -0.47515206E+00
                YY=  0.12448339E+01         YZ=  0.12356817E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8796337E-02 Y=  0.2681216E-08 Z=  0.4611798E-02  Total=      0.0099320
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251349E+02         XY= -0.43981686E-01         XZ= -0.15894558E-01
                YY= -0.10161239E+02         YZ=  0.23058989E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21623057E-01 Y= -0.11524536E-10 Z=  0.83898849E-07   Total=     0.02162306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83621599E+00         XY= -0.20430828E+00         XZ= -0.18091166E+00
                YY=  0.12448331E+01         YZ=  0.79262975E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8789977E-02 Y=  0.2680566E-08 Z=  0.4611798E-02  Total=      0.0099263
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251285E+02         XY= -0.43949889E-01         XZ= -0.15866408E-01
                YY= -0.10161239E+02         YZ=  0.23058990E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21772299E-01 Y= -0.48394650E-11 Z= -0.66361030E-07   Total=     0.02177230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16562708E+01         XY=  0.20571841E+00         XZ=  0.18215986E+00
                YY=  0.12448329E+01         YZ= -0.62706451E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5439289E-02 Y=  0.2680422E-08 Z=  0.4611579E-02  Total=      0.0071311
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217778E+02         XY= -0.27196448E-01         XZ= -0.10295034E-02
                YY= -0.10161239E+02         YZ=  0.23057893E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56883891E-01 Y=  0.38040891E-11 Z= -0.11301513E-06   Total=     0.05688389
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23197848E+01         XY=  0.53747488E+00         XZ=  0.47592518E+00
                YY=  0.12448335E+01         YZ= -0.10678096E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1911621E-04 Y=  0.2680566E-08 Z=  0.4611443E-02  Total=      0.0046115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163576E+02         XY= -0.95583036E-04         XZ=  0.22972219E-01
                YY= -0.10161239E+02         YZ=  0.23057213E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70352724E-01 Y=  0.10760880E-10 Z=  0.80387962E-08   Total=     0.07035272
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25743082E+01         XY=  0.66473690E+00         XZ=  0.58861511E+00
                YY=  0.12448342E+01         YZ=  0.76042405E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5408315E-02 Y=  0.2687790E-08 Z=  0.4611579E-02  Total=      0.0071075
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109302E+02         XY=  0.27041572E-01         XZ=  0.47007442E-01
                YY= -0.10161239E+02         YZ=  0.23057892E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57054276E-01 Y=  0.13320446E-10 Z=  0.12979354E-06   Total=     0.05705428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23230024E+01         XY=  0.53908478E+00         XZ=  0.47735311E+00
                YY=  0.12448339E+01         YZ=  0.12264794E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8778016E-02 Y=  0.2690319E-08 Z=  0.4611800E-02  Total=      0.0099158
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075605E+02         XY=  0.43890076E-01         XZ=  0.61930750E-01
                YY= -0.10161239E+02         YZ=  0.23058999E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22048247E-01 Y=  0.10790166E-10 Z=  0.84232855E-07   Total=     0.02204825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16614840E+01         XY=  0.20832575E+00         XZ=  0.18447023E+00
                YY=  0.12448331E+01         YZ=  0.79597206E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8807910E-02 Y=  0.2691402E-08 Z=  0.4611803E-02  Total=      0.0099422
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075306E+02         XY=  0.44039546E-01         XZ=  0.62063143E-01
                YY= -0.10161239E+02         YZ=  0.23059014E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21346520E-01 Y=  0.46504015E-11 Z= -0.66162296E-07   Total=     0.02134652
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84144313E+00         XY= -0.20169538E+00         XZ= -0.17859910E+00
                YY=  0.12448329E+01         YZ= -0.62510768E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5486624E-02 Y=  0.2690535E-08 Z=  0.4611585E-02  Total=      0.0071673
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108519E+02         XY=  0.27433120E-01         XZ=  0.47354244E-01
                YY= -0.10161239E+02         YZ=  0.23057922E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56619502E-01 Y= -0.22315618E-11 Z= -0.11437607E-06   Total=     0.05661950
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17488154E+00         XY= -0.53497676E+00         XZ= -0.47371549E+00
                YY=  0.12448335E+01         YZ= -0.10807195E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7781988E-04 Y=  0.2690680E-08 Z=  0.4611446E-02  Total=      0.0046121
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162607E+02         XY=  0.38909743E-03         XZ=  0.23401488E-01
                YY= -0.10161239E+02         YZ=  0.23057230E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70350292E-01 Y= -0.69252865E-11 Z=  0.60594716E-08   Total=     0.07035029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84593465E-01         XY= -0.66471393E+00         XZ= -0.58859474E+00
                YY=  0.12448341E+01         YZ=  0.57191942E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5360600E-02 Y=  0.2697687E-08 Z=  0.4611580E-02  Total=      0.0070713
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216991E+02         XY= -0.26803002E-01         XZ= -0.68105449E-03
                YY= -0.10161239E+02         YZ=  0.23057897E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57314705E-01 Y= -0.76888508E-11 Z=  0.12944488E-06   Total=     0.05731470
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16174185E+00         XY= -0.54154548E+00         XZ= -0.47952958E+00
                YY=  0.12448338E+01         YZ=  0.12230086E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8759464E-02 Y=  0.2697326E-08 Z=  0.4611802E-02  Total=      0.0098993
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250980E+02         XY= -0.43797320E-01         XZ= -0.15731285E-01
                YY= -0.10161239E+02         YZ=  0.23059008E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22472430E-01 Y= -0.46082111E-11 Z=  0.85981747E-07   Total=     0.02247243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82016509E+00         XY= -0.21233369E+00         XZ= -0.18801753E+00
                YY=  0.12448331E+01         YZ=  0.81236732E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8825596E-02 Y=  0.2697759E-08 Z=  0.4611808E-02  Total=      0.0099579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251641E+02         XY= -0.44127982E-01         XZ= -0.16024103E-01
                YY= -0.10161239E+02         YZ=  0.23059039E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20919994E-01 Y=  0.60736166E-12 Z= -0.64494475E-07   Total=     0.02091999
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16401645E+01         XY=  0.19766530E+00         XZ=  0.17502942E+00
                YY=  0.12448328E+01         YZ= -0.60938314E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5533835E-02 Y=  0.2699276E-08 Z=  0.4611591E-02  Total=      0.0072035
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218724E+02         XY= -0.27669177E-01         XZ= -0.14481194E-02
                YY= -0.10161239E+02         YZ=  0.23057951E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56352938E-01 Y=  0.55162681E-11 Z= -0.11494580E-06   Total=     0.05635294
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23097512E+01         XY=  0.53245810E+00         XZ=  0.47148324E+00
                YY=  0.12448335E+01         YZ= -0.10860379E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1366041E-03 Y=  0.2700938E-08 Z=  0.4611450E-02  Total=      0.0046135
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164751E+02         XY= -0.68302264E-03         XZ=  0.22451999E-01
                YY= -0.10161239E+02         YZ=  0.23057248E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70345138E-01 Y=  0.80684538E-11 Z=  0.38158458E-08   Total=     0.07034514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25741648E+01         XY=  0.66466523E+00         XZ=  0.58855186E+00
                YY=  0.12448341E+01         YZ=  0.36118640E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5312599E-02 Y=  0.2707873E-08 Z=  0.4611581E-02  Total=      0.0070349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110259E+02         XY=  0.26562992E-01         XZ=  0.46583622E-01
                YY= -0.10161239E+02         YZ=  0.23057903E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57572951E-01 Y=  0.74428855E-11 Z=  0.12796624E-06   Total=     0.05757295
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23328039E+01         XY=  0.54398555E+00         XZ=  0.48169278E+00
                YY=  0.12448338E+01         YZ=  0.12091647E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8740502E-02 Y=  0.2708451E-08 Z=  0.4611804E-02  Total=      0.0098826
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075980E+02         XY=  0.43702510E-01         XZ=  0.61764686E-01
                YY= -0.10161239E+02         YZ=  0.23059018E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22895848E-01 Y=  0.42538467E-11 Z=  0.86396100E-07   Total=     0.02289585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16775013E+01         XY=  0.21633441E+00         XZ=  0.19156180E+00
                YY=  0.12448330E+01         YZ=  0.81635711E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8842885E-02 Y=  0.2709318E-08 Z=  0.4611813E-02  Total=      0.0099732
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074957E+02         XY=  0.44214423E-01         XZ=  0.62218113E-01
                YY= -0.10161239E+02         YZ=  0.23059063E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20492487E-01 Y=  0.96664292E-13 Z= -0.63594691E-07   Total=     0.02049249
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85758194E+00         XY= -0.19362594E+00         XZ= -0.17145384E+00
                YY=  0.12448328E+01         YZ= -0.60088533E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5580794E-02 Y=  0.2708957E-08 Z=  0.4611596E-02  Total=      0.0072396
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107577E+02         XY=  0.27903966E-01         XZ=  0.47771348E-01
                YY= -0.10161239E+02         YZ=  0.23057980E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56083993E-01 Y= -0.32864106E-11 Z= -0.11524607E-06   Total=     0.05608399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18500112E+00         XY= -0.52991694E+00         XZ= -0.46923533E+00
                YY=  0.12448334E+01         YZ= -0.10889485E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1953630E-03 Y=  0.2709607E-08 Z=  0.4611454E-02  Total=      0.0046156
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161432E+02         XY=  0.97681311E-03         XZ=  0.23922069E-01
                YY= -0.10161239E+02         YZ=  0.23057266E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70337099E-01 Y= -0.47954246E-11 Z=  0.28209533E-08   Total=     0.07033710
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84344162E-01         XY= -0.66458927E+00         XZ= -0.58848465E+00
                YY=  0.12448341E+01         YZ=  0.26610640E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5264400E-02 Y=  0.2716470E-08 Z=  0.4611582E-02  Total=      0.0069986
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216029E+02         XY= -0.26322003E-01         XZ= -0.25502173E-03
                YY= -0.10161239E+02         YZ=  0.23057908E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57828908E-01 Y= -0.43527629E-11 Z=  0.12817722E-06   Total=     0.05782891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15202481E+00         XY= -0.54640400E+00         XZ= -0.48383199E+00
                YY=  0.12448338E+01         YZ=  0.12110596E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8721209E-02 Y=  0.2716759E-08 Z=  0.4611806E-02  Total=      0.0098655
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250597E+02         XY= -0.43606049E-01         XZ= -0.15561854E-01
                YY= -0.10161239E+02         YZ=  0.23059028E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23318457E-01 Y= -0.27450483E-11 Z=  0.88190105E-07   Total=     0.02331846
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80417746E+00         XY= -0.22032749E+00         XZ= -0.19509607E+00
                YY=  0.12448330E+01         YZ=  0.83324981E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8859848E-02 Y=  0.2718420E-08 Z=  0.4611818E-02  Total=      0.0099883
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251984E+02         XY= -0.44299242E-01         XZ= -0.16175728E-01
                YY= -0.10161239E+02         YZ=  0.23059087E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20063978E-01 Y= -0.10720592E-11 Z= -0.62243571E-07   Total=     0.02006398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16239880E+01         XY=  0.18957712E+00         XZ=  0.16786743E+00
                YY=  0.12448328E+01         YZ= -0.58812819E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5627571E-02 Y=  0.2718709E-08 Z=  0.4611602E-02  Total=      0.0072757
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219661E+02         XY= -0.28137857E-01         XZ= -0.18631463E-02
                YY= -0.10161239E+02         YZ=  0.23058010E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55812594E-01 Y= -0.12641631E-12 Z= -0.11623474E-06   Total=     0.05581259
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22995402E+01         XY=  0.52735258E+00         XZ=  0.46696248E+00
                YY=  0.12448334E+01         YZ= -0.10982628E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2541709E-03 Y=  0.2718348E-08 Z=  0.4611457E-02  Total=      0.0046185
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165927E+02         XY= -0.12708566E-02         XZ=  0.21931428E-01
                YY= -0.10161239E+02         YZ=  0.23057284E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70326057E-01 Y= -0.34651390E-13 Z=  0.28466649E-09   Total=     0.07032606
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25738043E+01         XY=  0.66448493E+00         XZ=  0.58839245E+00
                YY=  0.12448341E+01         YZ=  0.26869258E-08         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5215923E-02 Y=  0.2724344E-08 Z=  0.4611583E-02  Total=      0.0069622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111226E+02         XY=  0.26079613E-01         XZ=  0.46155555E-01
                YY= -0.10161239E+02         YZ=  0.23057913E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58082429E-01 Y= -0.31752301E-12 Z=  0.12663599E-06   Total=     0.05808243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23424317E+01         XY=  0.54879942E+00         XZ=  0.48595580E+00
                YY=  0.12448338E+01         YZ=  0.11965315E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8701495E-02 Y=  0.2725211E-08 Z=  0.4611808E-02  Total=      0.0098481
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076370E+02         XY=  0.43507472E-01         XZ=  0.61592023E-01
                YY= -0.10161239E+02         YZ=  0.23059037E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23740101E-01 Y= -0.29457986E-12 Z=  0.88699415E-07   Total=     0.02374010
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16934553E+01         XY=  0.22431145E+00         XZ=  0.19862590E+00
                YY=  0.12448330E+01         YZ=  0.83808295E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8876386E-02 Y=  0.2726511E-08 Z=  0.4611823E-02  Total=      0.0100030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074621E+02         XY=  0.44381930E-01         XZ=  0.62366599E-01
                YY= -0.10161239E+02         YZ=  0.23059111E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19634611E-01 Y=  0.42604317E-12 Z= -0.61322964E-07   Total=     0.01963461
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87379340E+00         XY= -0.18552019E+00         XZ= -0.16427572E+00
                YY=  0.12448328E+01         YZ= -0.57941709E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5674062E-02 Y=  0.2725933E-08 Z=  0.4611608E-02  Total=      0.0073118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106645E+02         XY=  0.28370308E-01         XZ=  0.48184540E-01
                YY= -0.10161239E+02         YZ=  0.23058038E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55538841E-01 Y=  0.16680886E-11 Z= -0.11685016E-06   Total=     0.05553884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19530301E+00         XY= -0.52476600E+00         XZ= -0.46467369E+00
                YY=  0.12448334E+01         YZ= -0.11040625E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3129204E-03 Y=  0.2726367E-08 Z=  0.4611461E-02  Total=      0.0046221
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160256E+02         XY=  0.15646002E-02         XZ=  0.24442821E-01
                YY= -0.10161239E+02         YZ=  0.23057301E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70312051E-01 Y=  0.27835879E-11 Z= -0.14562048E-08   Total=     0.07031205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83870786E-01         XY= -0.66435260E+00         XZ= -0.58827463E+00
                YY=  0.12448341E+01         YZ= -0.13738243E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5167271E-02 Y=  0.2734169E-08 Z=  0.4611584E-02  Total=      0.0069259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215058E+02         XY= -0.25836358E-01         XZ=  0.17525870E-03
                YY= -0.10161239E+02         YZ=  0.23057918E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58333480E-01 Y=  0.30715752E-11 Z=  0.12585660E-06   Total=     0.05833348
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14248984E+00         XY= -0.55117150E+00         XZ= -0.48805321E+00
                YY=  0.12448338E+01         YZ=  0.11891960E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8681453E-02 Y=  0.2735614E-08 Z=  0.4611809E-02  Total=      0.0098304
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250200E+02         XY= -0.43407267E-01         XZ= -0.15385621E-01
                YY= -0.10161239E+02         YZ=  0.23059044E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24160671E-01 Y=  0.22761563E-11 Z=  0.89634382E-07   Total=     0.02416067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78826193E+00         XY= -0.22828526E+00         XZ= -0.20214236E+00
                YY=  0.12448331E+01         YZ=  0.84693910E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8892580E-02 Y=  0.2736480E-08 Z=  0.4611827E-02  Total=      0.0100173
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252311E+02         XY= -0.44462902E-01         XZ= -0.16320466E-01
                YY= -0.10161239E+02         YZ=  0.23059133E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19204554E-01 Y=  0.86389071E-12 Z= -0.60377459E-07   Total=     0.01920455
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16077473E+01         XY=  0.18145674E+00         XZ=  0.16067696E+00
                YY=  0.12448328E+01         YZ= -0.57047916E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5720328E-02 Y=  0.2736336E-08 Z=  0.4611614E-02  Total=      0.0073477
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220588E+02         XY= -0.28601640E-01         XZ= -0.22736892E-02
                YY= -0.10161239E+02         YZ=  0.23058066E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55262934E-01 Y= -0.11193995E-12 Z= -0.11771703E-06   Total=     0.05526293
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22891531E+01         XY=  0.52215906E+00         XZ=  0.46236350E+00
                YY=  0.12448334E+01         YZ= -0.11122678E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3716522E-03 Y=  0.2736336E-08 Z=  0.4611464E-02  Total=      0.0046264
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167102E+02         XY= -0.18582630E-02         XZ=  0.21411362E-01
                YY= -0.10161239E+02         YZ=  0.23057317E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70295275E-01 Y=  0.47016703E-12 Z= -0.35157257E-08   Total=     0.07029528
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25732226E+01         XY=  0.66419409E+00         XZ=  0.58813457E+00
                YY=  0.12448341E+01         YZ= -0.33216965E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5118423E-02 Y=  0.2742549E-08 Z=  0.4611585E-02  Total=      0.0068895
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112201E+02         XY=  0.25592111E-01         XZ=  0.45723930E-01
                YY= -0.10161239E+02         YZ=  0.23057921E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58582209E-01 Y=  0.31496499E-11 Z=  0.12488066E-06   Total=     0.05858221
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23518762E+01         XY=  0.55352166E+00         XZ=  0.49013686E+00
                YY=  0.12448339E+01         YZ=  0.11799755E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8661076E-02 Y=  0.2743127E-08 Z=  0.4611811E-02  Total=      0.0098124
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076774E+02         XY=  0.43305378E-01         XZ=  0.61413164E-01
                YY= -0.10161239E+02         YZ=  0.23059051E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24580247E-01 Y=  0.74487756E-11 Z=  0.90579713E-07   Total=     0.02458025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17093318E+01         XY=  0.23224968E+00         XZ=  0.20565468E+00
                YY=  0.12448331E+01         YZ=  0.85591461E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8908428E-02 Y=  0.2743705E-08 Z=  0.4611831E-02  Total=      0.0100314
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074301E+02         XY=  0.44542139E-01         XZ=  0.62508631E-01
                YY= -0.10161239E+02         YZ=  0.23059154E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18773811E-01 Y=  0.11922469E-10 Z= -0.59278383E-07   Total=     0.01877381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89006017E+00         XY= -0.17738681E+00         XZ= -0.15707409E+00
                YY=  0.12448328E+01         YZ= -0.56000160E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5766369E-02 Y=  0.2744644E-08 Z=  0.4611619E-02  Total=      0.0073836
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105721E+02         XY=  0.28831842E-01         XZ=  0.48593442E-01
                YY= -0.10161239E+02         YZ=  0.23058092E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54984966E-01 Y=  0.14727970E-10 Z= -0.11846690E-06   Total=     0.05498497
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20576976E+00         XY= -0.51953264E+00         XZ= -0.46003995E+00
                YY=  0.12448334E+01         YZ= -0.11192283E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4303624E-03 Y=  0.2746739E-08 Z=  0.4611467E-02  Total=      0.0046315
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159081E+02         XY=  0.21518101E-02         XZ=  0.24962996E-01
                YY= -0.10161239E+02         YZ=  0.23057331E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70275901E-01 Y=  0.14484076E-10 Z= -0.56894299E-08   Total=     0.07027590
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83187567E-01         XY= -0.66401103E+00         XZ= -0.58797242E+00
                YY=  0.12448341E+01         YZ= -0.53637532E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5069391E-02 Y=  0.2755624E-08 Z=  0.4611585E-02  Total=      0.0068531
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214079E+02         XY= -0.25346958E-01         XZ=  0.60877460E-03
                YY= -0.10161239E+02         YZ=  0.23057923E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58828854E-01 Y=  0.11013468E-10 Z=  0.12345603E-06   Total=     0.05882885
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13312868E+00         XY= -0.55585212E+00         XZ= -0.49219792E+00
                YY=  0.12448339E+01         YZ=  0.11665813E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8640392E-02 Y=  0.2757214E-08 Z=  0.4611811E-02  Total=      0.0097941
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249789E+02         XY= -0.43201962E-01         XZ= -0.15203714E-01
                YY= -0.10161239E+02         YZ=  0.23059055E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24999110E-01 Y=  0.55840511E-11 Z=  0.90770099E-07   Total=     0.02499911
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77241777E+00         XY= -0.23620735E+00         XZ= -0.20915719E+00
                YY=  0.12448331E+01         YZ=  0.85769878E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8923976E-02 Y=  0.2757503E-08 Z=  0.4611835E-02  Total=      0.0100452
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252625E+02         XY= -0.44619883E-01         XZ= -0.16459391E-01
                YY= -0.10161239E+02         YZ=  0.23059172E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18342076E-01 Y=  0.47466755E-12 Z= -0.59107681E-07   Total=     0.01834208
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15914488E+01         XY=  0.17330750E+00         XZ=  0.15346114E+00
                YY=  0.12448328E+01         YZ= -0.55848363E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5812249E-02 Y=  0.2757792E-08 Z=  0.4611624E-02  Total=      0.0074195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221508E+02         XY= -0.29061245E-01         XZ= -0.26806178E-02
                YY= -0.10161239E+02         YZ=  0.23058116E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54704621E-01 Y= -0.19900156E-11 Z= -0.12012534E-06   Total=     0.05470462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22786026E+01         XY=  0.51688376E+00         XZ=  0.45769258E+00
                YY=  0.12448334E+01         YZ= -0.11350375E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4891319E-03 Y=  0.2757936E-08 Z=  0.4611469E-02  Total=      0.0046373
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168276E+02         XY= -0.24456616E-02         XZ=  0.20891241E-01
                YY= -0.10161239E+02         YZ=  0.23057344E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70253625E-01 Y= -0.52065836E-12 Z= -0.85207128E-08   Total=     0.07025363
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25724356E+01         XY=  0.66380056E+00         XZ=  0.58778643E+00
                YY=  0.12448341E+01         YZ= -0.80514153E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5020081E-02 Y=  0.2764510E-08 Z=  0.4611585E-02  Total=      0.0068167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113184E+02         XY=  0.25100403E-01         XZ=  0.45288549E-01
                YY= -0.10161239E+02         YZ=  0.23057922E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59073153E-01 Y=  0.44432737E-11 Z=  0.12186525E-06   Total=     0.05907315
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23611537E+01         XY=  0.55816040E+00         XZ=  0.49424479E+00
                YY=  0.12448339E+01         YZ=  0.11514963E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8619294E-02 Y=  0.2766171E-08 Z=  0.4611812E-02  Total=      0.0097755
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077192E+02         XY=  0.43096467E-01         XZ=  0.61228269E-01
                YY= -0.10161239E+02         YZ=  0.23059057E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25417069E-01 Y=  0.10789246E-10 Z=  0.91460408E-07   Total=     0.02541707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17251455E+01         XY=  0.24015650E+00         XZ=  0.21265647E+00
                YY=  0.12448331E+01         YZ=  0.86426539E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8939113E-02 Y=  0.2768844E-08 Z=  0.4611838E-02  Total=      0.0100587
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073994E+02         XY=  0.44695563E-01         XZ=  0.62644689E-01
                YY= -0.10161239E+02         YZ=  0.23059188E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17909435E-01 Y=  0.15564994E-10 Z= -0.57765461E-07   Total=     0.01790944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90639451E+00         XY= -0.16921964E+00         XZ= -0.14984184E+00
                YY=  0.12448328E+01         YZ= -0.54567469E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5857861E-02 Y=  0.2771734E-08 Z=  0.4611628E-02  Total=      0.0074553
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104806E+02         XY=  0.29289302E-01         XZ=  0.48998798E-01
                YY= -0.10161239E+02         YZ=  0.23058138E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54421860E-01 Y=  0.16262006E-10 Z= -0.12014885E-06   Total=     0.05442186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21641095E+00         XY= -0.51421205E+00         XZ= -0.45532845E+00
                YY=  0.12448334E+01         YZ= -0.11351063E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5478696E-03 Y=  0.2775707E-08 Z=  0.4611471E-02  Total=      0.0046439
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157906E+02         XY=  0.27393462E-02         XZ=  0.25483539E-01
                YY= -0.10161239E+02         YZ=  0.23057355E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70228273E-01 Y=  0.11987797E-10 Z= -0.96103669E-08   Total=     0.07022827
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82287479E-01         XY= -0.66356102E+00         XZ= -0.58757391E+00
                YY=  0.12448341E+01         YZ= -0.90704768E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4970557E-02 Y=  0.2785676E-08 Z=  0.4611584E-02  Total=      0.0067803
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213091E+02         XY= -0.24852785E-01         XZ=  0.10466030E-02
                YY= -0.10161239E+02         YZ=  0.23057920E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59314796E-01 Y=  0.39829346E-11 Z=  0.12175643E-06   Total=     0.05931480
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12394576E+00         XY= -0.56044360E+00         XZ= -0.49626374E+00
                YY=  0.12448339E+01         YZ=  0.11504646E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8597811E-02 Y=  0.2787049E-08 Z=  0.4611812E-02  Total=      0.0097566
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249363E+02         XY= -0.42989056E-01         XZ= -0.15014998E-01
                YY= -0.10161239E+02         YZ=  0.23059058E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25833708E-01 Y= -0.47920789E-11 Z=  0.93119040E-07   Total=     0.02583371
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75664616E+00         XY= -0.24409317E+00         XZ= -0.21614022E+00
                YY=  0.12448332E+01         YZ=  0.87980701E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8953825E-02 Y=  0.2786616E-08 Z=  0.4611841E-02  Total=      0.0100717
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252923E+02         XY= -0.44769128E-01         XZ= -0.16591408E-01
                YY= -0.10161239E+02         YZ=  0.23059204E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17476381E-01 Y= -0.10865277E-10 Z= -0.56054333E-07   Total=     0.01747638
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15750895E+01         XY=  0.16512787E+00         XZ=  0.14621779E+00
                YY=  0.12448329E+01         YZ= -0.52972804E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5903146E-02 Y=  0.2785099E-08 Z=  0.4611632E-02  Total=      0.0074909
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222416E+02         XY= -0.29515730E-01         XZ= -0.30829855E-02
                YY= -0.10161239E+02         YZ=  0.23058160E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54137208E-01 Y= -0.11754133E-10 Z= -0.12032640E-06   Total=     0.05413721
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22678800E+01         XY=  0.51152248E+00         XZ=  0.45294471E+00
                YY=  0.12448334E+01         YZ= -0.11370187E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6064682E-03 Y=  0.2783581E-08 Z=  0.4611474E-02  Total=      0.0046512
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169450E+02         XY= -0.30323430E-02         XZ=  0.20371744E-01
                YY= -0.10161239E+02         YZ=  0.23057366E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70200367E-01 Y= -0.70997478E-11 Z= -0.11175949E-07   Total=     0.07020037
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25714293E+01         XY=  0.66329734E+00         XZ=  0.58734024E+00
                YY=  0.12448341E+01         YZ= -0.10565764E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4920972E-02 Y=  0.2788783E-08 Z=  0.4611584E-02  Total=      0.0067441
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114175E+02         XY=  0.24604857E-01         XZ=  0.44849717E-01
                YY= -0.10161239E+02         YZ=  0.23057918E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59554282E-01 Y=  0.10895563E-11 Z=  0.12110486E-06   Total=     0.05955428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23702458E+01         XY=  0.56270641E+00         XZ=  0.49826965E+00
                YY=  0.12448339E+01         YZ=  0.11442832E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8576140E-02 Y=  0.2790083E-08 Z=  0.4611812E-02  Total=      0.0097375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077624E+02         XY=  0.42880699E-01         XZ=  0.61037210E-01
                YY= -0.10161239E+02         YZ=  0.23059059E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26249487E-01 Y=  0.92291886E-11 Z=  0.94372330E-07   Total=     0.02624949
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17408759E+01         XY=  0.24802171E+00         XZ=  0.21962057E+00
                YY=  0.12448332E+01         YZ=  0.89176547E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8968350E-02 Y=  0.2792395E-08 Z=  0.4611844E-02  Total=      0.0100847
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073702E+02         XY=  0.44841750E-01         XZ=  0.62774213E-01
                YY= -0.10161239E+02         YZ=  0.23059220E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17042483E-01 Y=  0.13671594E-10 Z= -0.54559818E-07   Total=     0.01704248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92277752E+00         XY= -0.16102812E+00         XZ= -0.14258864E+00
                YY=  0.12448329E+01         YZ= -0.51540222E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5948379E-02 Y=  0.2794273E-08 Z=  0.4611637E-02  Total=      0.0075266
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103901E+02         XY=  0.29741893E-01         XZ=  0.49399696E-01
                YY= -0.10161239E+02         YZ=  0.23058182E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53850250E-01 Y=  0.12296697E-10 Z= -0.12065102E-06   Total=     0.05385025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22721281E+00         XY= -0.50881113E+00         XZ= -0.45054614E+00
                YY=  0.12448334E+01         YZ= -0.11398850E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6652419E-03 Y=  0.2796874E-08 Z=  0.4611476E-02  Total=      0.0046592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156732E+02         XY=  0.33262078E-02         XZ=  0.26003331E-01
                YY= -0.10161239E+02         YZ=  0.23057377E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70169488E-01 Y=  0.54779050E-11 Z= -0.13013725E-07   Total=     0.07016949
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81176553E-01         XY= -0.66300557E+00         XZ= -0.58708204E+00
                YY=  0.12448341E+01         YZ= -0.12291703E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4870973E-02 Y=  0.2804242E-08 Z=  0.4611584E-02  Total=      0.0067077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212095E+02         XY= -0.24354866E-01         XZ=  0.14875987E-02
                YY= -0.10161239E+02         YZ=  0.23057916E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59791169E-01 Y= -0.40203946E-11 Z=  0.11993484E-06   Total=     0.05979117
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11494368E+00         XY= -0.56494467E+00         XZ= -0.50024915E+00
                YY=  0.12448340E+01         YZ=  0.11331853E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8553886E-02 Y=  0.2804459E-08 Z=  0.4611812E-02  Total=      0.0097179
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248924E+02         XY= -0.42769434E-01         XZ= -0.14820466E-01
                YY= -0.10161239E+02         YZ=  0.23059059E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26663932E-01 Y= -0.12192830E-10 Z=  0.94909678E-07   Total=     0.02666393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74095721E+00         XY= -0.25193765E+00         XZ= -0.22308602E+00
                YY=  0.12448332E+01         YZ=  0.89666325E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8982248E-02 Y=  0.2804676E-08 Z=  0.4611847E-02  Total=      0.0100970
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253208E+02         XY= -0.44911244E-01         XZ= -0.16717212E-01
                YY= -0.10161239E+02         YZ=  0.23059234E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16608257E-01 Y= -0.15508939E-10 Z= -0.53767226E-07   Total=     0.01660826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15586843E+01         XY=  0.15692529E+00         XZ=  0.13895496E+00
                YY=  0.12448329E+01         YZ= -0.50815784E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5993072E-02 Y=  0.2803520E-08 Z=  0.4611641E-02  Total=      0.0075620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223316E+02         XY= -0.29965364E-01         XZ= -0.34811205E-02
                YY= -0.10161239E+02         YZ=  0.23058202E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53561553E-01 Y= -0.12453550E-10 Z= -0.12138272E-06   Total=     0.05356155
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22570017E+01         XY=  0.50608333E+00         XZ=  0.44812882E+00
                YY=  0.12448334E+01         YZ= -0.11470062E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7236485E-03 Y=  0.2802220E-08 Z=  0.4611478E-02  Total=      0.0046679
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170621E+02         XY= -0.36182443E-02         XZ=  0.19852913E-01
                YY= -0.10161239E+02         YZ=  0.23057386E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70136258E-01 Y= -0.42120548E-11 Z= -0.14734265E-07   Total=     0.07013626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25702178E+01         XY=  0.66269160E+00         XZ=  0.58680416E+00
                YY=  0.12448341E+01         YZ= -0.13925540E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4821161E-02 Y=  0.2807276E-08 Z=  0.4611583E-02  Total=      0.0066716
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115173E+02         XY=  0.24105803E-01         XZ=  0.44407787E-01
                YY= -0.10161239E+02         YZ=  0.23057912E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60026142E-01 Y=  0.58082788E-11 Z=  0.11946936E-06   Total=     0.06002614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23791627E+01         XY=  0.56716485E+00         XZ=  0.50221771E+00
                YY=  0.12448340E+01         YZ=  0.11288692E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8531715E-02 Y=  0.2807276E-08 Z=  0.4611812E-02  Total=      0.0096984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078068E+02         XY=  0.42658573E-01         XZ=  0.60840554E-01
                YY= -0.10161239E+02         YZ=  0.23059058E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27077794E-01 Y=  0.13422919E-10 Z=  0.96553208E-07   Total=     0.02707779
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17565286E+01         XY=  0.25584807E+00         XZ=  0.22655073E+00
                YY=  0.12448332E+01         YZ=  0.91240696E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8996254E-02 Y=  0.2809155E-08 Z=  0.4611850E-02  Total=      0.0101095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073422E+02         XY=  0.44981269E-01         XZ=  0.62897878E-01
                YY= -0.10161239E+02         YZ=  0.23059247E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16172891E-01 Y=  0.15458551E-10 Z= -0.51903144E-07   Total=     0.01617289
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93921039E+00         XY= -0.15281168E+00         XZ= -0.13531326E+00
                YY=  0.12448329E+01         YZ= -0.49028484E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6038035E-02 Y=  0.2811033E-08 Z=  0.4611645E-02  Total=      0.0075977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103005E+02         XY=  0.30190171E-01         XZ=  0.49796818E-01
                YY= -0.10161239E+02         YZ=  0.23058222E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53270257E-01 Y=  0.11106928E-10 Z= -0.12162043E-06   Total=     0.05327026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23817308E+00         XY= -0.50333098E+00         XZ= -0.44569393E+00
                YY=  0.12448334E+01         YZ= -0.11490537E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7825746E-03 Y=  0.2812622E-08 Z=  0.4611480E-02  Total=      0.0046774
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155559E+02         XY=  0.39128710E-02         XZ=  0.26522975E-01
                YY= -0.10161239E+02         YZ=  0.23057396E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70099800E-01 Y=  0.22576762E-11 Z= -0.16921645E-07   Total=     0.07009980
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.79859619E-01         XY= -0.66234712E+00         XZ= -0.58649955E+00
                YY=  0.12448341E+01         YZ= -0.15986744E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4770571E-02 Y=  0.2818546E-08 Z=  0.4611582E-02  Total=      0.0066351
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211091E+02         XY= -0.23852858E-01         XZ=  0.19322127E-02
                YY= -0.10161239E+02         YZ=  0.23057909E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60258344E-01 Y= -0.73308531E-11 Z=  0.11760266E-06   Total=     0.06025834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10611537E+00         XY= -0.56935883E+00         XZ= -0.50415847E+00
                YY=  0.12448340E+01         YZ=  0.11111230E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8508586E-02 Y=  0.2819196E-08 Z=  0.4611812E-02  Total=      0.0096781
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248471E+02         XY= -0.42542933E-01         XZ= -0.14619884E-01
                YY= -0.10161239E+02         YZ=  0.23059056E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27490275E-01 Y= -0.13653859E-10 Z=  0.96356491E-07   Total=     0.02749027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72534157E+00         XY= -0.25974546E+00         XZ= -0.23000036E+00
                YY=  0.12448332E+01         YZ=  0.91032291E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9009260E-02 Y=  0.2819485E-08 Z=  0.4611852E-02  Total=      0.0101211
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253478E+02         XY= -0.45046302E-01         XZ= -0.16836852E-01
                YY= -0.10161239E+02         YZ=  0.23059260E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15737083E-01 Y= -0.14167635E-10 Z= -0.51546853E-07   Total=     0.01573708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15422215E+01         XY=  0.14869388E+00         XZ=  0.13166559E+00
                YY=  0.12448329E+01         YZ= -0.48716529E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6082099E-02 Y=  0.2818690E-08 Z=  0.4611649E-02  Total=      0.0076328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224206E+02         XY= -0.30410498E-01         XZ= -0.38753968E-02
                YY= -0.10161239E+02         YZ=  0.23058241E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52976932E-01 Y= -0.88426081E-11 Z= -0.12234438E-06   Total=     0.05297693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22459540E+01         XY=  0.50055947E+00         XZ=  0.44323701E+00
                YY=  0.12448334E+01         YZ= -0.11560601E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8408055E-03 Y=  0.2817607E-08 Z=  0.4611481E-02  Total=      0.0046875
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171793E+02         XY= -0.42040296E-02         XZ=  0.19334028E-01
                YY= -0.10161239E+02         YZ=  0.23057405E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70060546E-01 Y= -0.11903036E-12 Z= -0.18305419E-07   Total=     0.07006055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25687871E+01         XY=  0.66197622E+00         XZ=  0.58617031E+00
                YY=  0.12448341E+01         YZ= -0.17296084E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4720456E-02 Y=  0.2822736E-08 Z=  0.4611581E-02  Total=      0.0065992
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116180E+02         XY=  0.23602276E-01         XZ=  0.43961716E-01
                YY= -0.10161239E+02         YZ=  0.23057904E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60488075E-01 Y=  0.81923702E-11 Z=  0.11751222E-06   Total=     0.06048808
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23878920E+01         XY=  0.57152948E+00         XZ=  0.50608232E+00
                YY=  0.12448340E+01         YZ=  0.11104000E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8485778E-02 Y=  0.2823531E-08 Z=  0.4611811E-02  Total=      0.0096580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078527E+02         XY=  0.42428890E-01         XZ=  0.60637018E-01
                YY= -0.10161239E+02         YZ=  0.23059054E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27901569E-01 Y=  0.12565180E-10 Z=  0.98089424E-07   Total=     0.02790157
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17720957E+01         XY=  0.26363162E+00         XZ=  0.23344293E+00
                YY=  0.12448332E+01         YZ=  0.92691839E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9022562E-02 Y=  0.2824325E-08 Z=  0.4611855E-02  Total=      0.0101329
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073159E+02         XY=  0.45112810E-01         XZ=  0.63014296E-01
                YY= -0.10161240E+02         YZ=  0.23059272E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15300720E-01 Y=  0.11242897E-10 Z= -0.50114709E-07   Total=     0.01530072
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95569199E+00         XY= -0.14457085E+00         XZ= -0.12801603E+00
                YY=  0.12448329E+01         YZ= -0.47341831E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6126575E-02 Y=  0.2825553E-08 Z=  0.4611652E-02  Total=      0.0076683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102119E+02         XY=  0.30632873E-01         XZ=  0.50188839E-01
                YY= -0.10161239E+02         YZ=  0.23058260E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52681521E-01 Y=  0.49236844E-11 Z= -0.12358454E-06   Total=     0.05268152
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24929855E+00         XY= -0.49776823E+00         XZ= -0.44076806E+00
                YY=  0.12448334E+01         YZ= -0.11676602E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8996579E-03 Y=  0.2826059E-08 Z=  0.4611483E-02  Total=      0.0046984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154388E+02         XY=  0.44982878E-02         XZ=  0.27041380E-01
                YY= -0.10161239E+02         YZ=  0.23057414E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70018471E-01 Y= -0.36217261E-11 Z= -0.21861479E-07   Total=     0.07001847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.78322724E-01         XY= -0.66157867E+00         XZ= -0.58581896E+00
                YY=  0.12448341E+01         YZ= -0.20658788E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4669492E-02 Y=  0.2832055E-08 Z=  0.4611580E-02  Total=      0.0065628
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210080E+02         XY= -0.23347463E-01         XZ=  0.23797250E-02
                YY= -0.10161239E+02         YZ=  0.23057899E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60715333E-01 Y= -0.10793951E-10 Z=  0.11433082E-06   Total=     0.06071533
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97479526E-01         XY= -0.57367676E+00         XZ= -0.50798179E+00
                YY=  0.12448340E+01         YZ=  0.10801830E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8461968E-02 Y=  0.2833211E-08 Z=  0.4611810E-02  Total=      0.0096371
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248005E+02         XY= -0.42309842E-01         XZ= -0.14413534E-01
                YY= -0.10161240E+02         YZ=  0.23059049E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28311687E-01 Y= -0.13704756E-10 Z=  0.97073612E-07   Total=     0.02831169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70981911E+00         XY= -0.26750667E+00         XZ= -0.23687266E+00
                YY=  0.12448332E+01         YZ=  0.91710172E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9034837E-02 Y=  0.2833572E-08 Z=  0.4611857E-02  Total=      0.0101438
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253733E+02         XY= -0.45174188E-01         XZ= -0.16950176E-01
                YY= -0.10161240E+02         YZ=  0.23059281E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14863778E-01 Y= -0.11341428E-10 Z= -0.49880101E-07   Total=     0.01486378
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15257184E+01         XY=  0.14044235E+00         XZ=  0.12435906E+00
                YY=  0.12448328E+01         YZ= -0.47138965E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6170140E-02 Y=  0.2833355E-08 Z=  0.4611656E-02  Total=      0.0077031
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225086E+02         XY= -0.30850701E-01         XZ= -0.42653159E-02
                YY= -0.10161240E+02         YZ=  0.23058277E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52383984E-01 Y= -0.48825550E-11 Z= -0.12390141E-06   Total=     0.05238398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22347488E+01         XY=  0.49495692E+00         XZ=  0.43827599E+00
                YY=  0.12448334E+01         YZ= -0.11707353E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9578142E-03 Y=  0.2833572E-08 Z=  0.4611484E-02  Total=      0.0047099
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172963E+02         XY= -0.47890728E-02         XZ=  0.18815804E-01
                YY= -0.10161239E+02         YZ=  0.23057420E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69973515E-01 Y=  0.29233290E-11 Z= -0.22733863E-07   Total=     0.06997352
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25671424E+01         XY=  0.66115390E+00         XZ=  0.58544199E+00
                YY=  0.12448341E+01         YZ= -0.21477478E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4618991E-02 Y=  0.2839640E-08 Z=  0.4611579E-02  Total=      0.0065270
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117195E+02         XY=  0.23094955E-01         XZ=  0.43512294E-01
                YY= -0.10161240E+02         YZ=  0.23057893E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60940023E-01 Y=  0.89983667E-11 Z=  0.11444173E-06   Total=     0.06094002
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23964326E+01         XY=  0.57579977E+00         XZ=  0.50986334E+00
                YY=  0.12448340E+01         YZ=  0.10813979E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8438452E-02 Y=  0.2839207E-08 Z=  0.4611809E-02  Total=      0.0096165
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079000E+02         XY=  0.42192260E-01         XZ=  0.60427328E-01
                YY= -0.10161240E+02         YZ=  0.23059045E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28720483E-01 Y=  0.11229924E-10 Z=  0.98503259E-07   Total=     0.02872048
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17875709E+01         XY=  0.27136924E+00         XZ=  0.24029415E+00
                YY=  0.12448332E+01         YZ=  0.93082024E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9047365E-02 Y=  0.2839857E-08 Z=  0.4611859E-02  Total=      0.0101550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072911E+02         XY=  0.45236821E-01         XZ=  0.63124029E-01
                YY= -0.10161240E+02         YZ=  0.23059291E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14426472E-01 Y=  0.92683278E-11 Z= -0.49196093E-07   Total=     0.01442647
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97221279E+00         XY= -0.13631041E+00         XZ= -0.12070192E+00
                YY=  0.12448328E+01         YZ= -0.46475260E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6214048E-02 Y=  0.2841157E-08 Z=  0.4611659E-02  Total=      0.0077383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101244E+02         XY=  0.31070240E-01         XZ=  0.50576097E-01
                YY= -0.10161240E+02         YZ=  0.23058294E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52084629E-01 Y=  0.45265788E-11 Z= -0.12611127E-06   Total=     0.05208463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26057812E+00         XY= -0.49212843E+00         XZ= -0.43577457E+00
                YY=  0.12448334E+01         YZ= -0.11915353E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1016495E-02 Y=  0.2842674E-08 Z=  0.4611486E-02  Total=      0.0047222
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153220E+02         XY=  0.50824715E-02         XZ=  0.27558630E-01
                YY= -0.10161240E+02         YZ=  0.23057426E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69926104E-01 Y= -0.55561167E-12 Z= -0.27204359E-07   Total=     0.06992610
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.76577249E-01         XY= -0.66070593E+00         XZ= -0.58504668E+00
                YY=  0.12448341E+01         YZ= -0.25704299E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4567778E-02 Y=  0.2849176E-08 Z=  0.4611577E-02  Total=      0.0064909
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209063E+02         XY= -0.22838890E-01         XZ=  0.28299612E-02
                YY= -0.10161240E+02         YZ=  0.23057884E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61162710E-01 Y= -0.36136630E-11 Z=  0.11063881E-06   Total=     0.06116271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89025307E-01         XY= -0.57790386E+00         XZ= -0.51172530E+00
                YY=  0.12448340E+01         YZ=  0.10453606E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8414114E-02 Y=  0.2850043E-08 Z=  0.4611808E-02  Total=      0.0095951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247526E+02         XY= -0.42070573E-01         XZ= -0.14201828E-01
                YY= -0.10161240E+02         YZ=  0.23059037E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29128680E-01 Y= -0.33280878E-11 Z=  0.97262717E-07   Total=     0.02912868
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69438012E+00         XY= -0.27522614E+00         XZ= -0.24370850E+00
                YY=  0.12448332E+01         YZ=  0.91897724E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9059098E-02 Y=  0.2850621E-08 Z=  0.4611860E-02  Total=      0.0101655
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253976E+02         XY= -0.45295491E-01         XZ= -0.17057804E-01
                YY= -0.10161240E+02         YZ=  0.23059297E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13987924E-01 Y=  0.13442987E-12 Z= -0.48889492E-07   Total=     0.01398792
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15091670E+01         XY=  0.13216673E+00         XZ=  0.11703087E+00
                YY=  0.12448328E+01         YZ= -0.46193190E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6257338E-02 Y=  0.2850187E-08 Z=  0.4611662E-02  Total=      0.0077731
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225958E+02         XY= -0.31286691E-01         XZ= -0.46516473E-02
                YY= -0.10161240E+02         YZ=  0.23058307E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51782427E-01 Y=  0.53421248E-11 Z= -0.12632828E-06   Total=     0.05178243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22233810E+01         XY=  0.48927303E+00         XZ=  0.43324284E+00
                YY=  0.12448333E+01         YZ= -0.11935786E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1074833E-02 Y=  0.2850332E-08 Z=  0.4611486E-02  Total=      0.0047351
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174133E+02         XY= -0.53741660E-02         XZ=  0.18297393E-01
                YY= -0.10161240E+02         YZ=  0.23057430E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69875070E-01 Y=  0.10320156E-10 Z= -0.28223573E-07   Total=     0.06987507
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25652821E+01         XY=  0.66022373E+00         XZ=  0.58461831E+00
                YY=  0.12448341E+01         YZ= -0.26658151E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4516611E-02 Y=  0.2855750E-08 Z=  0.4611575E-02  Total=      0.0064550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118219E+02         XY=  0.22583052E-01         XZ=  0.43058681E-01
                YY= -0.10161240E+02         YZ=  0.23057874E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61382112E-01 Y=  0.13411084E-10 Z=  0.11025650E-06   Total=     0.06138211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24047868E+01         XY=  0.57997690E+00         XZ=  0.51356224E+00
                YY=  0.12448340E+01         YZ=  0.10418917E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8389597E-02 Y=  0.2856689E-08 Z=  0.4611806E-02  Total=      0.0095736
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079489E+02         XY=  0.41947984E-01         XZ=  0.60210754E-01
                YY= -0.10161240E+02         YZ=  0.23059028E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29534898E-01 Y=  0.13893567E-10 Z=  0.97975001E-07   Total=     0.02953490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18029611E+01         XY=  0.27906434E+00         XZ=  0.24710830E+00
                YY=  0.12448332E+01         YZ=  0.92585254E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9070557E-02 Y=  0.2858640E-08 Z=  0.4611861E-02  Total=      0.0101757
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072679E+02         XY=  0.45352785E-01         XZ=  0.63226547E-01
                YY= -0.10161240E+02         YZ=  0.23059303E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13549580E-01 Y=  0.12127374E-10 Z= -0.48916656E-07   Total=     0.01354958
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98878359E+00         XY= -0.12802497E+00         XZ= -0.11336499E+00
                YY=  0.12448328E+01         YZ= -0.46208726E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6300401E-02 Y=  0.2859651E-08 Z=  0.4611664E-02  Total=      0.0078078
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100381E+02         XY=  0.31502001E-01         XZ=  0.50958334E-01
                YY= -0.10161240E+02         YZ=  0.23058319E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51478869E-01 Y=  0.92257359E-11 Z= -0.12905544E-06   Total=     0.05147887
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27202529E+00         XY= -0.48640482E+00         XZ= -0.43070612E+00
                YY=  0.12448333E+01         YZ= -0.12193135E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1133089E-02 Y=  0.2860879E-08 Z=  0.4611487E-02  Total=      0.0047487
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152054E+02         XY=  0.56654424E-02         XZ=  0.28074781E-01
                YY= -0.10161240E+02         YZ=  0.23057432E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69821931E-01 Y=  0.64671707E-11 Z= -0.32931348E-07   Total=     0.06982193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.74608685E-01         XY= -0.65972164E+00         XZ= -0.58417490E+00
                YY=  0.12448340E+01         YZ= -0.31109573E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4465365E-02 Y=  0.2868609E-08 Z=  0.4611573E-02  Total=      0.0064192
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208038E+02         XY= -0.22326824E-01         XZ=  0.32832960E-02
                YY= -0.10161240E+02         YZ=  0.23057862E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61599756E-01 Y=  0.47440595E-11 Z=  0.10651101E-06   Total=     0.06159976
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80766339E-01         XY= -0.58203334E+00         XZ= -0.51538176E+00
                YY=  0.12448340E+01         YZ=  0.10064290E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8364910E-02 Y=  0.2871282E-08 Z=  0.4611804E-02  Total=      0.0095520
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247034E+02         XY= -0.41824553E-01         XZ= -0.13984114E-01
                YY= -0.10161240E+02         YZ=  0.23059016E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29940671E-01 Y=  0.42859968E-11 Z=  0.97056523E-07   Total=     0.02994067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67903566E+00         XY= -0.28289835E+00         XZ= -0.25050207E+00
                YY=  0.12448332E+01         YZ=  0.91709311E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9081888E-02 Y=  0.2872149E-08 Z=  0.4611861E-02  Total=      0.0101858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254204E+02         XY= -0.45409444E-01         XZ= -0.17158877E-01
                YY= -0.10161240E+02         YZ=  0.23059304E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13109901E-01 Y=  0.47329811E-11 Z= -0.48109653E-07   Total=     0.01310990
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14925747E+01         XY=  0.12387062E+00         XZ=  0.10968473E+00
                YY=  0.12448328E+01         YZ= -0.45452467E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6343519E-02 Y=  0.2871065E-08 Z=  0.4611666E-02  Total=      0.0078427
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226820E+02         XY= -0.31717596E-01         XZ= -0.50334237E-02
                YY= -0.10161240E+02         YZ=  0.23058328E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51172405E-01 Y=  0.54572873E-11 Z= -0.12872117E-06   Total=     0.05117241
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22118532E+01         XY=  0.48350916E+00         XZ=  0.42813884E+00
                YY=  0.12448333E+01         YZ= -0.12161869E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1191685E-02 Y=  0.2870487E-08 Z=  0.4611487E-02  Total=      0.0047630
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175301E+02         XY= -0.59584263E-02         XZ=  0.17779767E-01
                YY= -0.10161240E+02         YZ=  0.23057432E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69765116E-01 Y=  0.59280418E-11 Z= -0.33428842E-07   Total=     0.06976512
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25632042E+01         XY=  0.65918481E+00         XZ=  0.58369807E+00
                YY=  0.12448340E+01         YZ= -0.31580083E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4413474E-02 Y=  0.2876411E-08 Z=  0.4611570E-02  Total=      0.0063832
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119250E+02         XY=  0.22067367E-01         XZ=  0.42601752E-01
                YY= -0.10161240E+02         YZ=  0.23057849E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61814035E-01 Y=  0.59241283E-11 Z=  0.10667631E-06   Total=     0.06181403
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24129490E+01         XY=  0.58405799E+00         XZ=  0.51717567E+00
                YY=  0.12448340E+01         YZ=  0.10080009E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8339341E-02 Y=  0.2875905E-08 Z=  0.4611801E-02  Total=      0.0095296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079991E+02         XY=  0.41696703E-01         XZ=  0.59987991E-01
                YY= -0.10161240E+02         YZ=  0.23059004E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30344346E-01 Y=  0.55126849E-11 Z=  0.98504170E-07   Total=     0.03034435
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18182574E+01         XY=  0.28671252E+00         XZ=  0.25388038E+00
                YY=  0.12448332E+01         YZ=  0.93078182E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9092226E-02 Y=  0.2876266E-08 Z=  0.4611862E-02  Total=      0.0101950
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072463E+02         XY=  0.45461130E-01         XZ=  0.63322311E-01
                YY= -0.10161240E+02         YZ=  0.23059306E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12670594E-01 Y=  0.48553743E-11 Z= -0.47098795E-07   Total=     0.01267059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10053940E+01         XY= -0.11971976E+00         XZ= -0.10601104E+00
                YY=  0.12448328E+01         YZ= -0.44497266E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6385672E-02 Y=  0.2877856E-08 Z=  0.4611668E-02  Total=      0.0078768
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099528E+02         XY=  0.31928356E-01         XZ=  0.51335760E-01
                YY= -0.10161240E+02         YZ=  0.23058338E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50864788E-01 Y=  0.39962905E-11 Z= -0.13017903E-06   Total=     0.05086479
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28362968E+00         XY= -0.48060260E+00         XZ= -0.42556847E+00
                YY=  0.12448333E+01         YZ= -0.12299747E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1249438E-02 Y=  0.2878939E-08 Z=  0.4611487E-02  Total=      0.0047778
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150890E+02         XY=  0.62471902E-02         XZ=  0.28589812E-01
                YY= -0.10161240E+02         YZ=  0.23057432E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69706412E-01 Y=  0.27863964E-11 Z= -0.36887276E-07   Total=     0.06970641
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.72425679E-01         XY= -0.65863014E+00         XZ= -0.58320844E+00
                YY=  0.12448340E+01         YZ= -0.34850583E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4362286E-02 Y=  0.2885008E-08 Z=  0.4611567E-02  Total=      0.0063479
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207008E+02         XY= -0.21811433E-01         XZ=  0.37395339E-02
                YY= -0.10161240E+02         YZ=  0.23057834E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62026761E-01 Y=  0.10043171E-11 Z=  0.10386407E-06   Total=     0.06202676
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72697124E-01         XY= -0.58606796E+00         XZ= -0.51895426E+00
                YY=  0.12448340E+01         YZ=  0.98138656E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8314404E-02 Y=  0.2886380E-08 Z=  0.4611798E-02  Total=      0.0095078
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246529E+02         XY= -0.41572024E-01         XZ= -0.13760676E-01
                YY= -0.10161240E+02         YZ=  0.23058990E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30747740E-01 Y= -0.13970449E-11 Z=  0.98000378E-07   Total=     0.03074774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66378425E+00         XY= -0.29052404E+00         XZ= -0.25725427E+00
                YY=  0.12448332E+01         YZ=  0.92596262E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9103254E-02 Y=  0.2886814E-08 Z=  0.4611862E-02  Total=      0.0102048
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254417E+02         XY= -0.45516274E-01         XZ= -0.17253672E-01
                YY= -0.10161240E+02         YZ=  0.23059306E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12229848E-01 Y= -0.40860642E-11 Z= -0.46442671E-07   Total=     0.01222985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14759441E+01         XY=  0.11555532E+00         XZ=  0.10232198E+00
                YY=  0.12448328E+01         YZ= -0.43884880E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6428709E-02 Y=  0.2885802E-08 Z=  0.4611670E-02  Total=      0.0079118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227672E+02         XY= -0.32143549E-01         XZ= -0.54108252E-02
                YY= -0.10161240E+02         YZ=  0.23058346E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50554233E-01 Y= -0.63491313E-11 Z= -0.13044262E-06   Total=     0.05055423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22001714E+01         XY=  0.47766827E+00         XZ=  0.42296715E+00
                YY=  0.12448333E+01         YZ= -0.12325522E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1308367E-02 Y=  0.2885152E-08 Z=  0.4611486E-02  Total=      0.0047935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176468E+02         XY= -0.65418345E-02         XZ=  0.17262909E-01
                YY= -0.10161240E+02         YZ=  0.23057430E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69644066E-01 Y= -0.73474314E-11 Z= -0.38149703E-07   Total=     0.06964407
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25609167E+01         XY=  0.65804106E+00         XZ=  0.58268558E+00
                YY=  0.12448340E+01         YZ= -0.36051887E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4309620E-02 Y=  0.2889197E-08 Z=  0.4611564E-02  Total=      0.0063118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120288E+02         XY=  0.21548097E-01         XZ=  0.42141685E-01
                YY= -0.10161240E+02         YZ=  0.23057819E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62236215E-01 Y= -0.65411765E-11 Z=  0.10348592E-06   Total=     0.06223622
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24209271E+01         XY=  0.58804701E+00         XZ=  0.52070814E+00
                YY=  0.12448340E+01         YZ=  0.97775031E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8287757E-02 Y=  0.2887825E-08 Z=  0.4611795E-02  Total=      0.0094845
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080507E+02         XY=  0.41438781E-01         XZ=  0.59759402E-01
                YY= -0.10161240E+02         YZ=  0.23058975E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31149174E-01 Y= -0.40663652E-11 Z=  0.99474101E-07   Total=     0.03114917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18334664E+01         XY=  0.29431704E+00         XZ=  0.26061429E+00
                YY=  0.12448332E+01         YZ=  0.93986453E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9112469E-02 Y=  0.2887464E-08 Z=  0.4611861E-02  Total=      0.0102130
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072260E+02         XY=  0.45562344E-01         XZ=  0.63411834E-01
                YY= -0.10161240E+02         YZ=  0.23059305E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11789303E-01 Y= -0.84078096E-12 Z= -0.44717054E-07   Total=     0.01178930
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10220479E+01         XY= -0.11139277E+00         XZ= -0.98637478E-01
                YY=  0.12448328E+01         YZ= -0.42251776E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6469973E-02 Y=  0.2887753E-08 Z=  0.4611671E-02  Total=      0.0079453
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098685E+02         XY=  0.32349862E-01         XZ=  0.51708974E-01
                YY= -0.10161240E+02         YZ=  0.23058354E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50242334E-01 Y=  0.17160983E-11 Z= -0.13068328E-06   Total=     0.05024233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29539233E+00         XY= -0.47472126E+00         XZ= -0.42036061E+00
                YY=  0.12448333E+01         YZ= -0.12347596E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1365657E-02 Y=  0.2888909E-08 Z=  0.4611486E-02  Total=      0.0048095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149728E+02         XY=  0.68282814E-02         XZ=  0.29104348E-01
                YY= -0.10161240E+02         YZ=  0.23057429E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69579634E-01 Y=  0.22751794E-11 Z= -0.40256583E-07   Total=     0.06957963
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.70029913E-01         XY= -0.65743227E+00         XZ= -0.58214781E+00
                YY=  0.12448340E+01         YZ= -0.38034652E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4258437E-02 Y=  0.2895121E-08 Z=  0.4611561E-02  Total=      0.0062770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205969E+02         XY= -0.21292187E-01         XZ=  0.41992643E-02
                YY= -0.10161240E+02         YZ=  0.23057803E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62443921E-01 Y=  0.24948669E-12 Z=  0.10184303E-06   Total=     0.06244392
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64813958E-01         XY= -0.59000955E+00         XZ= -0.52244458E+00
                YY=  0.12448340E+01         YZ=  0.96228352E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8262506E-02 Y=  0.2894399E-08 Z=  0.4611792E-02  Total=      0.0094624
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246010E+02         XY= -0.41312534E-01         XZ= -0.13531006E-01
                YY= -0.10161240E+02         YZ=  0.23058959E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31550150E-01 Y= -0.38147391E-11 Z=  0.99850004E-07   Total=     0.03155015
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64862090E+00         XY= -0.29810571E+00         XZ= -0.26396780E+00
                YY=  0.12448332E+01         YZ=  0.94341840E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9123125E-02 Y=  0.2893026E-08 Z=  0.4611861E-02  Total=      0.0102226
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254616E+02         XY= -0.45615627E-01         XZ= -0.17341792E-01
                YY= -0.10161240E+02         YZ=  0.23059304E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11347463E-01 Y= -0.83369758E-11 Z= -0.43381562E-07   Total=     0.01134746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14592694E+01         XY=  0.10721799E+00         XZ=  0.94939351E-01
                YY=  0.12448328E+01         YZ= -0.40996135E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6512861E-02 Y=  0.2892304E-08 Z=  0.4611673E-02  Total=      0.0079803
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228513E+02         XY= -0.32564306E-01         XZ= -0.57835878E-02
                YY= -0.10161240E+02         YZ=  0.23058361E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49927587E-01 Y= -0.11309165E-10 Z= -0.13029369E-06   Total=     0.04992759
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21883295E+01         XY=  0.47174733E+00         XZ=  0.41772421E+00
                YY=  0.12448333E+01         YZ= -0.12311867E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1424853E-02 Y=  0.2891292E-08 Z=  0.4611486E-02  Total=      0.0048266
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177633E+02         XY= -0.71242682E-02         XZ=  0.16746937E-01
                YY= -0.10161240E+02         YZ=  0.23057428E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69511584E-01 Y= -0.11178185E-10 Z= -0.40727101E-07   Total=     0.06951158
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25584132E+01         XY=  0.65678929E+00         XZ=  0.58157717E+00
                YY=  0.12448341E+01         YZ= -0.38490391E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4205047E-02 Y=  0.2896133E-08 Z=  0.4611558E-02  Total=      0.0062409
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121334E+02         XY=  0.21025232E-01         XZ=  0.41678446E-01
                YY= -0.10161240E+02         YZ=  0.23057788E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62648314E-01 Y= -0.76146383E-11 Z=  0.10250402E-06   Total=     0.06264831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24287146E+01         XY=  0.59194078E+00         XZ=  0.52415611E+00
                YY=  0.12448340E+01         YZ=  0.96846382E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8234815E-02 Y=  0.2895844E-08 Z=  0.4611789E-02  Total=      0.0094383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081037E+02         XY=  0.41174074E-01         XZ=  0.59524813E-01
                YY= -0.10161240E+02         YZ=  0.23058945E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31949073E-01 Y= -0.17920898E-11 Z=  0.10261418E-06   Total=     0.03194907
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18485823E+01         XY=  0.30187499E+00         XZ=  0.26730694E+00
                YY=  0.12448333E+01         YZ=  0.96955347E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9131234E-02 Y=  0.2895916E-08 Z=  0.4611861E-02  Total=      0.0102298
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072072E+02         XY=  0.45656170E-01         XZ=  0.63494822E-01
                YY= -0.10161240E+02         YZ=  0.23059304E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10905936E-01 Y=  0.39990448E-11 Z= -0.40268713E-07   Total=     0.01090594
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10387411E+01         XY= -0.10304616E+00         XZ= -0.91246403E-01
                YY=  0.12448328E+01         YZ= -0.38044566E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6553238E-02 Y=  0.2897072E-08 Z=  0.4611674E-02  Total=      0.0080133
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097852E+02         XY=  0.32766188E-01         XZ=  0.52077619E-01
                YY= -0.10161240E+02         YZ=  0.23058370E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49611589E-01 Y=  0.72809058E-11 Z= -0.12935070E-06   Total=     0.04961159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30731168E+00         XY= -0.46876158E+00         XZ= -0.41508312E+00
                YY=  0.12448333E+01         YZ= -0.12221207E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1481676E-02 Y=  0.2899239E-08 Z=  0.4611486E-02  Total=      0.0048437
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148568E+02         XY=  0.74083780E-02         XZ=  0.29618033E-01
                YY= -0.10161240E+02         YZ=  0.23057429E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69441483E-01 Y=  0.64752264E-11 Z= -0.42170997E-07   Total=     0.06944148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.67419210E-01         XY= -0.65612692E+00         XZ= -0.58099168E+00
                YY=  0.12448341E+01         YZ= -0.39839823E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4153870E-02 Y=  0.2905524E-08 Z=  0.4611556E-02  Total=      0.0062065
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204923E+02         XY= -0.20769353E-01         XZ=  0.46622177E-02
                YY= -0.10161240E+02         YZ=  0.23057776E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62850910E-01 Y=  0.16636103E-11 Z=  0.10084159E-06   Total=     0.06285091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57123020E-01         XY= -0.59385503E+00         XZ= -0.52584944E+00
                YY=  0.12448340E+01         YZ=  0.95283509E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8209239E-02 Y=  0.2907041E-08 Z=  0.4611787E-02  Total=      0.0094160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245477E+02         XY= -0.41046197E-01         XZ= -0.13295213E-01
                YY= -0.10161240E+02         YZ=  0.23058932E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32347400E-01 Y= -0.53471073E-11 Z=  0.10236029E-06   Total=     0.03234740
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63355504E+00         XY= -0.30563864E+00         XZ= -0.27063784E+00
                YY=  0.12448333E+01         YZ=  0.96712646E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9141483E-02 Y=  0.2907547E-08 Z=  0.4611861E-02  Total=      0.0102389
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254800E+02         XY= -0.45707416E-01         XZ= -0.17423144E-01
                YY= -0.10161240E+02         YZ=  0.23059304E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10463323E-01 Y= -0.11725357E-10 Z= -0.39928368E-07   Total=     0.01046332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14425615E+01         XY=  0.98864078E-01         XZ=  0.87542302E-01
                YY=  0.12448328E+01         YZ= -0.37735955E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6595914E-02 Y=  0.2906246E-08 Z=  0.4611676E-02  Total=      0.0080482
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229344E+02         XY= -0.32979573E-01         XZ= -0.61514103E-02
                YY= -0.10161240E+02         YZ=  0.23058379E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49292995E-01 Y= -0.14803139E-10 Z= -0.13001909E-06   Total=     0.04929300
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21763374E+01         XY=  0.46575130E+00         XZ=  0.41241495E+00
                YY=  0.12448333E+01         YZ= -0.12286191E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1541054E-02 Y=  0.2906319E-08 Z=  0.4611486E-02  Total=      0.0048622
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178795E+02         XY= -0.77052728E-02         XZ=  0.16232314E-01
                YY= -0.10161240E+02         YZ=  0.23057429E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69368029E-01 Y= -0.13245801E-10 Z= -0.43473217E-07   Total=     0.06936803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25557004E+01         XY=  0.65543288E+00         XZ=  0.58037613E+00
                YY=  0.12448341E+01         YZ= -0.41086597E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4099862E-02 Y=  0.2912026E-08 Z=  0.4611553E-02  Total=      0.0061705
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122386E+02         XY=  0.20499309E-01         XZ=  0.41212582E-01
                YY= -0.10161240E+02         YZ=  0.23057761E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63050446E-01 Y= -0.76805574E-11 Z=  0.10113510E-06   Total=     0.06305045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24363139E+01         XY=  0.59574038E+00         XZ=  0.52752061E+00
                YY=  0.12448341E+01         YZ=  0.95553118E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8180621E-02 Y=  0.2911737E-08 Z=  0.4611784E-02  Total=      0.0093910
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081578E+02         XY=  0.40903105E-01         XZ=  0.59284756E-01
                YY= -0.10161240E+02         YZ=  0.23058918E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32743912E-01 Y= -0.48364025E-12 Z=  0.10533038E-06   Total=     0.03274391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18636026E+01         XY=  0.30938513E+00         XZ=  0.27395708E+00
                YY=  0.12448333E+01         YZ=  0.99523120E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9148607E-02 Y=  0.2913037E-08 Z=  0.4611861E-02  Total=      0.0102453
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071899E+02         XY=  0.45743034E-01         XZ=  0.63571716E-01
                YY= -0.10161240E+02         YZ=  0.23059305E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10020795E-01 Y=  0.52047601E-11 Z= -0.36164176E-07   Total=     0.01002080
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10554678E+01         XY= -0.94682795E-01         XZ= -0.83840744E-01
                YY=  0.12448329E+01         YZ= -0.34165080E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6635525E-02 Y=  0.2915421E-08 Z=  0.4611678E-02  Total=      0.0080807
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097029E+02         XY=  0.33177623E-01         XZ=  0.52441996E-01
                YY= -0.10161240E+02         YZ=  0.23058389E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48972912E-01 Y=  0.68260339E-11 Z= -0.12836413E-06   Total=     0.04897291
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31938090E+00         XY= -0.46272696E+00         XZ= -0.40973955E+00
                YY=  0.12448333E+01         YZ= -0.12128002E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1597528E-02 Y=  0.2917877E-08 Z=  0.4611487E-02  Total=      0.0048804
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147409E+02         XY=  0.79876395E-02         XZ=  0.30131034E-01
                YY= -0.10161240E+02         YZ=  0.23057431E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69292254E-01 Y=  0.35267031E-11 Z= -0.44629930E-07   Total=     0.06929225
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.64599170E-01         XY= -0.65471691E+00         XZ= -0.57974313E+00
                YY=  0.12448341E+01         YZ= -0.42165385E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4048570E-02 Y=  0.2925029E-08 Z=  0.4611550E-02  Total=      0.0061366
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203870E+02         XY= -0.20242852E-01         XZ=  0.51284661E-02
                YY= -0.10161240E+02         YZ=  0.23057750E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63247876E-01 Y= -0.34361016E-11 Z=  0.99002034E-07   Total=     0.06324788
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49621468E-01         XY= -0.59760582E+00         XZ= -0.52917065E+00
                YY=  0.12448341E+01         YZ=  0.93541368E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8154590E-02 Y=  0.2926040E-08 Z=  0.4611781E-02  Total=      0.0093683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244931E+02         XY= -0.40772951E-01         XZ= -0.13053260E-01
                YY= -0.10161240E+02         YZ=  0.23058905E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33139480E-01 Y= -0.11196069E-10 Z=  0.10383154E-06   Total=     0.03313948
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61858689E+00         XY= -0.31312271E+00         XZ= -0.27726472E+00
                YY=  0.12448333E+01         YZ=  0.98098126E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9158307E-02 Y=  0.2926257E-08 Z=  0.4611861E-02  Total=      0.0102540
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254968E+02         XY= -0.45791538E-01         XZ= -0.17497665E-01
                YY= -0.10161240E+02         YZ=  0.23059305E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.95775559E-02 Y= -0.16479085E-10 Z= -0.37572901E-07   Total=     0.00957756
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14258229E+01         XY=  0.90494788E-01         XZ=  0.80131658E-01
                YY=  0.12448329E+01         YZ= -0.35514118E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6677835E-02 Y=  0.2925246E-08 Z=  0.4611680E-02  Total=      0.0081155
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230163E+02         XY= -0.33389179E-01         XZ= -0.65141727E-02
                YY= -0.10161240E+02         YZ=  0.23058397E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48650619E-01 Y= -0.16990820E-10 Z= -0.13088958E-06   Total=     0.04865062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21641983E+01         XY=  0.45968173E+00         XZ=  0.40704071E+00
                YY=  0.12448333E+01         YZ= -0.12368604E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1656921E-02 Y=  0.2923367E-08 Z=  0.4611486E-02  Total=      0.0049001
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179954E+02         XY= -0.82846086E-02         XZ=  0.15719223E-01
                YY= -0.10161240E+02         YZ=  0.23057430E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69213519E-01 Y= -0.12393228E-10 Z= -0.47538247E-07   Total=     0.06921352
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25527806E+01         XY=  0.65397298E+00         XZ=  0.57908372E+00
                YY=  0.12448341E+01         YZ= -0.44926611E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3994121E-02 Y=  0.2928207E-08 Z=  0.4611547E-02  Total=      0.0061008
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123443E+02         XY=  0.19970603E-01         XZ=  0.40744319E-01
                YY= -0.10161240E+02         YZ=  0.23057734E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63442653E-01 Y= -0.44495535E-11 Z=  0.98153880E-07   Total=     0.06344265
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24437255E+01         XY=  0.59944619E+00         XZ=  0.53080241E+00
                YY=  0.12448341E+01         YZ=  0.92739130E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8125231E-02 Y=  0.2928641E-08 Z=  0.4611778E-02  Total=      0.0093428
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082132E+02         XY=  0.40626154E-01         XZ=  0.59039480E-01
                YY= -0.10161240E+02         YZ=  0.23058889E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33533668E-01 Y=  0.37229970E-11 Z=  0.10612434E-06   Total=     0.03353367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18785268E+01         XY=  0.31684725E+00         XZ=  0.28056507E+00
                YY=  0.12448333E+01         YZ=  0.10027696E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9164641E-02 Y=  0.2928930E-08 Z=  0.4611861E-02  Total=      0.0102596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071738E+02         XY=  0.45823203E-01         XZ=  0.63642773E-01
                YY= -0.10161240E+02         YZ=  0.23059303E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.91339155E-02 Y=  0.89689311E-11 Z= -0.34251681E-07   Total=     0.00913392
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10722273E+01         XY= -0.86302994E-01         XZ= -0.76420179E-01
                YY=  0.12448329E+01         YZ= -0.32354756E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6716886E-02 Y=  0.2928930E-08 Z=  0.4611681E-02  Total=      0.0081476
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096216E+02         XY=  0.33584429E-01         XZ=  0.52802375E-01
                YY= -0.10161240E+02         YZ=  0.23058405E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48326289E-01 Y=  0.94134327E-11 Z= -0.12981081E-06   Total=     0.04832629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33160028E+00         XY= -0.45661725E+00         XZ= -0.40432922E+00
                YY=  0.12448333E+01         YZ= -0.12264465E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1713270E-02 Y=  0.2929508E-08 Z=  0.4611486E-02  Total=      0.0049195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146252E+02         XY=  0.85663475E-02         XZ=  0.30643656E-01
                YY= -0.10161240E+02         YZ=  0.23057430E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69131856E-01 Y=  0.52243165E-11 Z= -0.49705645E-07   Total=     0.06913186
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.61568073E-01         XY= -0.65320137E+00         XZ= -0.57840100E+00
                YY=  0.12448341E+01         YZ= -0.46959716E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3942470E-02 Y=  0.2933915E-08 Z=  0.4611544E-02  Total=      0.0060671
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202809E+02         XY= -0.19712354E-01         XZ=  0.55983655E-02
                YY= -0.10161240E+02         YZ=  0.23057719E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63634678E-01 Y= -0.14992077E-11 Z=  0.94530699E-07   Total=     0.06363468
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42311992E-01         XY= -0.60126057E+00         XZ= -0.53240684E+00
                YY=  0.12448341E+01         YZ=  0.89318264E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8098481E-02 Y=  0.2931820E-08 Z=  0.4611775E-02  Total=      0.0093195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244369E+02         XY= -0.40492408E-01         XZ= -0.12804740E-01
                YY= -0.10161240E+02         YZ=  0.23058872E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33926269E-01 Y= -0.76477023E-11 Z=  0.10288668E-06   Total=     0.03392627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60371872E+00         XY= -0.32055679E+00         XZ= -0.28384753E+00
                YY=  0.12448334E+01         YZ=  0.97208366E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9173514E-02 Y=  0.2930158E-08 Z=  0.4611860E-02  Total=      0.0102676
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255120E+02         XY= -0.45867574E-01         XZ= -0.17564934E-01
                YY= -0.10161240E+02         YZ=  0.23059298E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.86901646E-02 Y= -0.10428952E-10 Z= -0.37312726E-07   Total=     0.00869016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14090536E+01         XY=  0.82110155E-01         XZ=  0.72707067E-01
                YY=  0.12448329E+01         YZ= -0.35263240E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6758547E-02 Y=  0.2927919E-08 Z=  0.4611682E-02  Total=      0.0081820
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230970E+02         XY= -0.33792735E-01         XZ= -0.68715052E-02
                YY= -0.10161240E+02         YZ=  0.23058408E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48000271E-01 Y= -0.85323220E-11 Z= -0.13366995E-06   Total=     0.04800027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21519084E+01         XY=  0.45353684E+00         XZ=  0.40159929E+00
                YY=  0.12448333E+01         YZ= -0.12630609E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1772400E-02 Y=  0.2927341E-08 Z=  0.4611485E-02  Total=      0.0049404
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181108E+02         XY= -0.88620029E-02         XZ=  0.15207903E-01
                YY= -0.10161240E+02         YZ=  0.23057423E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69047660E-01 Y= -0.26443596E-11 Z= -0.53576082E-07   Total=     0.06904766
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25496463E+01         XY=  0.65240583E+00         XZ=  0.57769581E+00
                YY=  0.12448341E+01         YZ= -0.50623465E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3887840E-02 Y=  0.2933409E-08 Z=  0.4611540E-02  Total=      0.0060317
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124506E+02         XY=  0.19439198E-01         XZ=  0.40273694E-01
                YY= -0.10161240E+02         YZ=  0.23057698E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63824386E-01 Y=  0.48836571E-11 Z=  0.93036129E-07   Total=     0.06382439
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24509392E+01         XY=  0.60305305E+00         XZ=  0.53399607E+00
                YY=  0.12448341E+01         YZ=  0.87911270E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8068615E-02 Y=  0.2933409E-08 Z=  0.4611770E-02  Total=      0.0092936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082699E+02         XY=  0.40343073E-01         XZ=  0.58788780E-01
                YY= -0.10161240E+02         YZ=  0.23058850E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34317760E-01 Y=  0.11051064E-10 Z=  0.10477972E-06   Total=     0.03431776
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18933439E+01         XY=  0.32425584E+00         XZ=  0.28712525E+00
                YY=  0.12448334E+01         YZ=  0.99012509E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9179262E-02 Y=  0.2933409E-08 Z=  0.4611858E-02  Total=      0.0102727
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071592E+02         XY=  0.45896308E-01         XZ=  0.63707566E-01
                YY= -0.10161240E+02         YZ=  0.23059290E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.82457700E-02 Y=  0.13459899E-10 Z= -0.34199733E-07   Total=     0.00824577
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10890108E+01         XY= -0.77911235E-01         XZ= -0.68989286E-01
                YY=  0.12448329E+01         YZ= -0.32302017E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6797216E-02 Y=  0.2934131E-08 Z=  0.4611682E-02  Total=      0.0082140
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095412E+02         XY=  0.33986080E-01         XZ=  0.53158177E-01
                YY= -0.10161240E+02         YZ=  0.23058410E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47671961E-01 Y=  0.11273676E-10 Z= -0.13266510E-06   Total=     0.04767196
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34396523E+00         XY= -0.45043475E+00         XZ= -0.39885450E+00
                YY=  0.12448333E+01         YZ= -0.12534013E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1828786E-02 Y=  0.2935215E-08 Z=  0.4611484E-02  Total=      0.0049609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145097E+02         XY=  0.91439284E-02         XZ=  0.31155268E-01
                YY= -0.10161240E+02         YZ=  0.23057418E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68960233E-01 Y=  0.54938704E-11 Z= -0.55732081E-07   Total=     0.06896023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.58324891E-01         XY= -0.65157978E+00         XZ= -0.57696482E+00
                YY=  0.12448341E+01         YZ= -0.52653804E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3835672E-02 Y=  0.2941933E-08 Z=  0.4611536E-02  Total=      0.0059982
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201741E+02         XY= -0.19178364E-01         XZ=  0.60713573E-02
                YY= -0.10161240E+02         YZ=  0.23057677E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64010973E-01 Y= -0.15311177E-11 Z=  0.89500338E-07   Total=     0.06401097
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35201040E-01         XY= -0.60481605E+00         XZ= -0.53555480E+00
                YY=  0.12448341E+01         YZ=  0.84565030E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8040981E-02 Y=  0.2942872E-08 Z=  0.4611766E-02  Total=      0.0092696
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243794E+02         XY= -0.40204908E-01         XZ= -0.12550041E-01
                YY= -0.10161240E+02         YZ=  0.23058827E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34707218E-01 Y= -0.71275389E-11 Z=  0.10172257E-06   Total=     0.03470722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58896089E+00         XY= -0.32793568E+00         XZ= -0.29038101E+00
                YY=  0.12448334E+01         YZ=  0.96108621E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9187127E-02 Y=  0.2942367E-08 Z=  0.4611856E-02  Total=      0.0102797
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255256E+02         XY= -0.45935638E-01         XZ= -0.17625101E-01
                YY= -0.10161240E+02         YZ=  0.23059279E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78017849E-02 Y= -0.93957500E-11 Z= -0.37010679E-07   Total=     0.00780178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13922656E+01         XY=  0.73716184E-01         XZ=  0.65274754E-01
                YY=  0.12448329E+01         YZ= -0.34977272E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6838023E-02 Y=  0.2941572E-08 Z=  0.4611682E-02  Total=      0.0082478
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231765E+02         XY= -0.34190119E-01         XZ= -0.72233065E-02
                YY= -0.10161240E+02         YZ=  0.23058406E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47342550E-01 Y= -0.79303205E-11 Z= -0.13630168E-06   Total=     0.04734255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21394792E+01         XY=  0.44732227E+00         XZ=  0.39609673E+00
                YY=  0.12448333E+01         YZ= -0.12879251E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1887427E-02 Y=  0.2940633E-08 Z=  0.4611482E-02  Total=      0.0049828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182259E+02         XY= -0.94371356E-02         XZ=  0.14698674E-01
                YY= -0.10161240E+02         YZ=  0.23057406E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68870913E-01 Y= -0.38842198E-11 Z= -0.59506761E-07   Total=     0.06887091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25463063E+01         XY=  0.65073582E+00         XZ=  0.57621727E+00
                YY=  0.12448341E+01         YZ= -0.56228497E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3781109E-02 Y=  0.2946268E-08 Z=  0.4611530E-02  Total=      0.0059635
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125573E+02         XY=  0.18905544E-01         XZ=  0.39801183E-01
                YY= -0.10161240E+02         YZ=  0.23057650E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64195922E-01 Y=  0.60957239E-12 Z=  0.87989386E-07   Total=     0.06419592
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24579602E+01         XY=  0.60656356E+00         XZ=  0.53710471E+00
                YY=  0.12448341E+01         YZ=  0.83138895E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8010874E-02 Y=  0.2947135E-08 Z=  0.4611760E-02  Total=      0.0092435
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083276E+02         XY=  0.40054366E-01         XZ=  0.58533213E-01
                YY= -0.10161240E+02         YZ=  0.23058799E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35096269E-01 Y=  0.33776136E-11 Z=  0.10364094E-06   Total=     0.03509627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19080556E+01         XY=  0.33161168E+00         XZ=  0.29363878E+00
                YY=  0.12448334E+01         YZ=  0.97929768E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9192568E-02 Y=  0.2947351E-08 Z=  0.4611853E-02  Total=      0.0102846
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071459E+02         XY=  0.45962836E-01         XZ=  0.63766645E-01
                YY= -0.10161240E+02         YZ=  0.23059265E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.73564493E-02 Y=  0.30949206E-11 Z= -0.33648142E-07   Total=     0.00735645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11058164E+01         XY= -0.69508372E-01         XZ= -0.61548735E-01
                YY=  0.12448329E+01         YZ= -0.31789872E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6876598E-02 Y=  0.2946990E-08 Z=  0.4611681E-02  Total=      0.0082798
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094619E+02         XY=  0.34382988E-01         XZ=  0.53509878E-01
                YY= -0.10161240E+02         YZ=  0.23058403E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47010159E-01 Y= -0.24179004E-12 Z= -0.13475316E-06   Total=     0.04701016
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35647141E+00         XY= -0.44418163E+00         XZ= -0.39331765E+00
                YY=  0.12448333E+01         YZ= -0.12732310E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1944134E-02 Y=  0.2947062E-08 Z=  0.4611479E-02  Total=      0.0050045
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143943E+02         XY=  0.97206693E-02         XZ=  0.31666217E-01
                YY= -0.10161240E+02         YZ=  0.23057395E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68777728E-01 Y= -0.54140904E-11 Z= -0.60910366E-07   Total=     0.06877773
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.54876056E-01         XY= -0.64985535E+00         XZ= -0.57543817E+00
                YY=  0.12448341E+01         YZ= -0.57556157E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3728151E-02 Y=  0.2953347E-08 Z=  0.4611525E-02  Total=      0.0059300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200666E+02         XY= -0.18640754E-01         XZ=  0.65476089E-02
                YY= -0.10161240E+02         YZ=  0.23057625E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64377197E-01 Y= -0.10566968E-10 Z=  0.85234779E-07   Total=     0.06437720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28280415E-01         XY= -0.60827635E+00         XZ= -0.53861918E+00
                YY=  0.12448341E+01         YZ=  0.80526605E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7982101E-02 Y=  0.2954359E-08 Z=  0.4611755E-02  Total=      0.0092186
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243206E+02         XY= -0.39910506E-01         XZ= -0.12289206E-01
                YY= -0.10161240E+02         YZ=  0.23058771E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35482840E-01 Y= -0.13992223E-10 Z=  0.10118789E-06   Total=     0.03548284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57430371E+00         XY= -0.33526425E+00         XZ= -0.29687063E+00
                YY=  0.12448334E+01         YZ=  0.95597154E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9199198E-02 Y=  0.2954142E-08 Z=  0.4611850E-02  Total=      0.0102905
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255377E+02         XY= -0.45995994E-01         XZ= -0.17678447E-01
                YY= -0.10161240E+02         YZ=  0.23059250E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69118478E-02 Y= -0.14772816E-10 Z= -0.36236190E-07   Total=     0.00691185
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13754481E+01         XY=  0.65307496E-01         XZ=  0.57828780E-01
                YY=  0.12448329E+01         YZ= -0.34250513E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6916363E-02 Y=  0.2953564E-08 Z=  0.4611680E-02  Total=      0.0083129
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232548E+02         XY= -0.34581815E-01         XZ= -0.75700963E-02
                YY= -0.10161240E+02         YZ=  0.23058396E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46676871E-01 Y= -0.13041022E-10 Z= -0.13870571E-06   Total=     0.04667687
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21268997E+01         XY=  0.44103251E+00         XZ=  0.39052712E+00
                YY=  0.12448333E+01         YZ= -0.13106880E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2002139E-02 Y=  0.2951758E-08 Z=  0.4611476E-02  Total=      0.0050274
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183406E+02         XY= -0.10010697E-01         XZ=  0.14190795E-01
                YY= -0.10161240E+02         YZ=  0.23057379E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68682746E-01 Y= -0.97934118E-11 Z= -0.65538028E-07   Total=     0.06868275
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25427504E+01         XY=  0.64895790E+00         XZ=  0.57464291E+00
                YY=  0.12448340E+01         YZ= -0.61932683E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3673757E-02 Y=  0.2954648E-08 Z=  0.4611519E-02  Total=      0.0058960
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126647E+02         XY=  0.18368782E-01         XZ=  0.39325869E-01
                YY= -0.10161240E+02         YZ=  0.23057594E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64556854E-01 Y= -0.63955969E-11 Z=  0.82604164E-07   Total=     0.06455685
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24647809E+01         XY=  0.60997387E+00         XZ=  0.54012458E+00
                YY=  0.12448341E+01         YZ=  0.78044214E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7951813E-02 Y=  0.2954070E-08 Z=  0.4611748E-02  Total=      0.0091924
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083867E+02         XY=  0.39759065E-01         XZ=  0.58271760E-01
                YY= -0.10161240E+02         YZ=  0.23058738E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35868984E-01 Y= -0.40214019E-11 Z=  0.10222159E-06   Total=     0.03586898
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19226578E+01         XY=  0.33891279E+00         XZ=  0.30010404E+00
                YY=  0.12448334E+01         YZ=  0.96581952E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9204360E-02 Y=  0.2954503E-08 Z=  0.4611846E-02  Total=      0.0102951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071341E+02         XY=  0.46021799E-01         XZ=  0.63818990E-01
                YY= -0.10161240E+02         YZ=  0.23059230E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64659223E-02 Y= -0.32586246E-11 Z= -0.33011105E-07   Total=     0.00646592
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11226449E+01         XY= -0.61094111E-01         XZ= -0.54097700E-01
                YY=  0.12448329E+01         YZ= -0.31193817E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6954848E-02 Y=  0.2954720E-08 Z=  0.4611678E-02  Total=      0.0083449
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093836E+02         XY=  0.34774239E-01         XZ=  0.53856553E-01
                YY= -0.10161240E+02         YZ=  0.23058387E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46340610E-01 Y= -0.40089729E-11 Z= -0.13629530E-06   Total=     0.04634061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36912400E+00         XY= -0.43785531E+00         XZ= -0.38771543E+00
                YY=  0.12448333E+01         YZ= -0.12878391E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2059164E-02 Y=  0.2954792E-08 Z=  0.4611473E-02  Total=      0.0050503
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142793E+02         XY=  0.10295819E-01         XZ=  0.32175766E-01
                YY= -0.10161240E+02         YZ=  0.23057365E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68583871E-01 Y= -0.56635050E-11 Z= -0.65228607E-07   Total=     0.06858387
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.51212719E-01         XY= -0.64802367E+00         XZ= -0.57381593E+00
                YY=  0.12448340E+01         YZ= -0.61637054E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3620010E-02 Y=  0.2959921E-08 Z=  0.4611513E-02  Total=      0.0058626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199585E+02         XY= -0.18100054E-01         XZ=  0.70266313E-02
                YY= -0.10161240E+02         YZ=  0.23057565E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64732770E-01 Y= -0.74230874E-11 Z=  0.81917694E-07   Total=     0.06473277
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21561044E-01         XY= -0.61163603E+00         XZ= -0.54159385E+00
                YY=  0.12448341E+01         YZ=  0.77394519E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7921898E-02 Y=  0.2959560E-08 Z=  0.4611742E-02  Total=      0.0091665
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242604E+02         XY= -0.39609491E-01         XZ= -0.12022459E-01
                YY= -0.10161240E+02         YZ=  0.23058707E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36252553E-01 Y= -0.86049735E-11 Z=  0.10152552E-06   Total=     0.03625255
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55975818E+00         XY= -0.34253699E+00         XZ= -0.30331029E+00
                YY=  0.12448334E+01         YZ=  0.95920185E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9209742E-02 Y=  0.2959560E-08 Z=  0.4611843E-02  Total=      0.0102999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255482E+02         XY= -0.46048711E-01         XZ= -0.17724955E-01
                YY= -0.10161240E+02         YZ=  0.23059212E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60208352E-02 Y= -0.88210139E-11 Z= -0.34770602E-07   Total=     0.00602084
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13586104E+01         XY=  0.56888648E-01         XZ=  0.50374175E-01
                YY=  0.12448329E+01         YZ= -0.32861216E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6993546E-02 Y=  0.2959127E-08 Z=  0.4611676E-02  Total=      0.0083772
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233320E+02         XY= -0.34967732E-01         XZ= -0.79116873E-02
                YY= -0.10161240E+02         YZ=  0.23058378E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46003537E-01 Y= -0.80058172E-11 Z= -0.14068883E-06   Total=     0.04600354
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21141754E+01         XY=  0.43467043E+00         XZ=  0.38489360E+00
                YY=  0.12448333E+01         YZ= -0.13293879E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2116505E-02 Y=  0.2958838E-08 Z=  0.4611470E-02  Total=      0.0050740
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184550E+02         XY= -0.10582525E-01         XZ=  0.13684532E-01
                YY= -0.10161240E+02         YZ=  0.23057346E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68483236E-01 Y= -0.63459401E-11 Z= -0.71443114E-07   Total=     0.06848324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25389802E+01         XY=  0.64707280E+00         XZ=  0.57297354E+00
                YY=  0.12448340E+01         YZ= -0.67509684E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3565810E-02 Y=  0.2963894E-08 Z=  0.4611507E-02  Total=      0.0058293
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127726E+02         XY=  0.17829049E-01         XZ=  0.38847996E-01
                YY= -0.10161240E+02         YZ=  0.23057531E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64907026E-01 Y= -0.41860280E-11 Z=  0.77176352E-07   Total=     0.06490703
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24713981E+01         XY=  0.61328252E+00         XZ=  0.54305408E+00
                YY=  0.12448341E+01         YZ=  0.72917172E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7891440E-02 Y=  0.2962883E-08 Z=  0.4611734E-02  Total=      0.0091402
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084470E+02         XY=  0.39457200E-01         XZ=  0.58004542E-01
                YY= -0.10161240E+02         YZ=  0.23058669E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36635551E-01 Y= -0.19628436E-11 Z=  0.10082126E-06   Total=     0.03663555
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19371437E+01         XY=  0.34615579E+00         XZ=  0.30651729E+00
                YY=  0.12448334E+01         YZ=  0.95260236E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9214609E-02 Y=  0.2962016E-08 Z=  0.4611838E-02  Total=      0.0103043
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071239E+02         XY=  0.46073044E-01         XZ=  0.63864523E-01
                YY= -0.10161240E+02         YZ=  0.23059187E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55746872E-02 Y= -0.16027914E-12 Z= -0.32155067E-07   Total=     0.00557469
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11394867E+01         XY= -0.52673161E-01         XZ= -0.46641460E-01
                YY=  0.12448329E+01         YZ= -0.30382674E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7031892E-02 Y=  0.2962377E-08 Z=  0.4611673E-02  Total=      0.0084092
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093066E+02         XY=  0.35159460E-01         XZ=  0.54197880E-01
                YY= -0.10161240E+02         YZ=  0.23058364E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45663875E-01 Y=  0.75359457E-12 Z= -0.13750802E-06   Total=     0.04566388
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38191237E+00         XY= -0.43146109E+00         XZ= -0.38205390E+00
                YY=  0.12448333E+01         YZ= -0.12992604E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2173755E-02 Y=  0.2963316E-08 Z=  0.4611466E-02  Total=      0.0050981
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141647E+02         XY=  0.10868776E-01         XZ=  0.32683333E-01
                YY= -0.10161240E+02         YZ=  0.23057327E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68379203E-01 Y=  0.44058331E-12 Z= -0.69311612E-07   Total=     0.06837920
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.47345062E-01         XY= -0.64608983E+00         XZ= -0.57210401E+00
                YY=  0.12448340E+01         YZ= -0.65490057E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3511413E-02 Y=  0.2968807E-08 Z=  0.4611500E-02  Total=      0.0057962
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198499E+02         XY= -0.17557067E-01         XZ=  0.75076092E-02
                YY= -0.10161240E+02         YZ=  0.23057498E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65078127E-01 Y= -0.11559888E-11 Z=  0.78689340E-07   Total=     0.06507813
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15034735E-01         XY= -0.61489919E+00         XZ= -0.54448371E+00
                YY=  0.12448341E+01         YZ=  0.74349210E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7860562E-02 Y=  0.2982460E-08 Z=  0.4611727E-02  Total=      0.0091135
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241990E+02         XY= -0.39302813E-01         XZ= -0.11750789E-01
                YY= -0.10161240E+02         YZ=  0.23058635E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37016618E-01 Y= -0.36926014E-11 Z=  0.10203589E-06   Total=     0.03701662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54531942E+00         XY= -0.34975636E+00         XZ= -0.30970316E+00
                YY=  0.12448334E+01         YZ=  0.96406362E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9218960E-02 Y=  0.2982388E-08 Z=  0.4611834E-02  Total=      0.0103082
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255574E+02         XY= -0.46094803E-01         XZ= -0.17765704E-01
                YY= -0.10161240E+02         YZ=  0.23059166E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51287054E-02 Y= -0.64328170E-11 Z= -0.32678414E-07   Total=     0.00512871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13417515E+01         XY=  0.48459243E-01         XZ=  0.42910006E-01
                YY=  0.12448329E+01         YZ= -0.30882506E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7069772E-02 Y=  0.2981377E-08 Z=  0.4611671E-02  Total=      0.0084409
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234082E+02         XY= -0.35348861E-01         XZ= -0.82491459E-02
                YY= -0.10161240E+02         YZ=  0.23058352E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45322735E-01 Y= -0.84353668E-11 Z= -0.14134745E-06   Total=     0.04532274
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21013101E+01         XY=  0.42823779E+00         XZ=  0.37919769E+00
                YY=  0.12448332E+01         YZ= -0.13356152E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2230699E-02 Y=  0.2980149E-08 Z=  0.4611462E-02  Total=      0.0051227
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185692E+02         XY= -0.11153497E-01         XZ=  0.13178930E-01
                YY= -0.10161240E+02         YZ=  0.23057307E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68272780E-01 Y= -0.88934040E-11 Z= -0.75318615E-07   Total=     0.06827278
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25350032E+01         XY=  0.64508428E+00         XZ=  0.57121296E+00
                YY=  0.12448340E+01         YZ= -0.71173671E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3457131E-02 Y=  0.2984772E-08 Z=  0.4611493E-02  Total=      0.0057635
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128813E+02         XY=  0.17285653E-01         XZ=  0.38366803E-01
                YY= -0.10161240E+02         YZ=  0.23057462E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65247002E-01 Y= -0.74993803E-11 Z=  0.74336724E-07   Total=     0.06524700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24778228E+01         XY=  0.61649482E+00         XZ=  0.54589889E+00
                YY=  0.12448341E+01         YZ=  0.70231323E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7829663E-02 Y=  0.2998064E-08 Z=  0.4611720E-02  Total=      0.0090869
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085088E+02         XY=  0.39148313E-01         XZ=  0.57731061E-01
                YY= -0.10161240E+02         YZ=  0.23058596E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37396634E-01 Y= -0.46627409E-11 Z=  0.10237470E-06   Total=     0.03739663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19515261E+01         XY=  0.35334698E+00         XZ=  0.31288544E+00
                YY=  0.12448334E+01         YZ=  0.96725755E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9223277E-02 Y=  0.2998137E-08 Z=  0.4611828E-02  Total=      0.0103120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071152E+02         XY=  0.46116383E-01         XZ=  0.63903042E-01
                YY= -0.10161240E+02         YZ=  0.23059139E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46820396E-02 Y= -0.14458173E-11 Z= -0.28202049E-07   Total=     0.00468204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11563553E+01         XY= -0.44238863E-01         XZ= -0.39172546E-01
                YY=  0.12448329E+01         YZ= -0.26648714E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7107747E-02 Y=  0.2998426E-08 Z=  0.4611668E-02  Total=      0.0084728
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092307E+02         XY=  0.35538733E-01         XZ=  0.54533965E-01
                YY= -0.10161240E+02         YZ=  0.23058338E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44979271E-01 Y=  0.80670926E-12 Z= -0.13573880E-06   Total=     0.04497927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39484947E+00         XY= -0.42499252E+00         XZ= -0.37632571E+00
                YY=  0.12448332E+01         YZ= -0.12825436E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2287976E-02 Y=  0.2999798E-08 Z=  0.4611458E-02  Total=      0.0051479
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140505E+02         XY=  0.11439880E-01         XZ=  0.33189316E-01
                YY= -0.10161240E+02         YZ=  0.23057289E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68163111E-01 Y=  0.10220936E-11 Z= -0.70719599E-07   Total=     0.06816311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.43261521E-01         XY= -0.64404806E+00         XZ= -0.57029586E+00
                YY=  0.12448340E+01         YZ= -0.66819973E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3402245E-02 Y=  0.3006516E-08 Z=  0.4611487E-02  Total=      0.0057307
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197407E+02         XY= -0.17011227E-01         XZ=  0.79911924E-02
                YY= -0.10161240E+02         YZ=  0.23057431E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65412778E-01 Y= -0.10953216E-11 Z=  0.77835522E-07   Total=     0.06541278
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87107478E-02         XY= -0.61806118E+00         XZ= -0.54728359E+00
                YY=  0.12448341E+01         YZ=  0.73542479E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7797947E-02 Y=  0.3018942E-08 Z=  0.4611713E-02  Total=      0.0090596
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241364E+02         XY= -0.38989735E-01         XZ= -0.11473363E-01
                YY= -0.10161240E+02         YZ=  0.23058564E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37774719E-01 Y= -0.48437414E-11 Z=  0.10479804E-06   Total=     0.03777472
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53099337E+00         XY= -0.35691937E+00         XZ= -0.31604602E+00
                YY=  0.12448334E+01         YZ=  0.99015223E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9226688E-02 Y=  0.3017931E-08 Z=  0.4611824E-02  Total=      0.0103151
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255652E+02         XY= -0.46133443E-01         XZ= -0.17799767E-01
                YY= -0.10161240E+02         YZ=  0.23059120E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42355460E-02 Y= -0.87251572E-11 Z= -0.28330940E-07   Total=     0.00423555
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13248732E+01         XY=  0.40020110E-01         XZ=  0.35437004E-01
                YY=  0.12448329E+01         YZ= -0.26776663E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7144876E-02 Y=  0.3016991E-08 Z=  0.4611666E-02  Total=      0.0085039
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234833E+02         XY= -0.35724382E-01         XZ= -0.85815696E-02
                YY= -0.10161240E+02         YZ=  0.23058328E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44634281E-01 Y= -0.11021977E-10 Z= -0.13985248E-06   Total=     0.04463428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20883002E+01         XY=  0.42173283E+00         XZ=  0.37343722E+00
                YY=  0.12448332E+01         YZ= -0.13215114E-05         ZZ=  0.12448311E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2344583E-02 Y=  0.3015330E-08 Z=  0.4611455E-02  Total=      0.0051733
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186830E+02         XY= -0.11722918E-01         XZ=  0.12674742E-01
                YY= -0.10161240E+02         YZ=  0.23057271E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68050897E-01 Y= -0.10523625E-10 Z= -0.77412952E-07   Total=     0.06805090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25308102E+01         XY=  0.64298779E+00         XZ=  0.56935601E+00
                YY=  0.12448340E+01         YZ= -0.73153915E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3347811E-02 Y=  0.3018942E-08 Z=  0.4611480E-02  Total=      0.0056986
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129906E+02         XY=  0.16739054E-01         XZ=  0.37882775E-01
                YY= -0.10161240E+02         YZ=  0.23057397E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65576030E-01 Y= -0.70927155E-11 Z=  0.72721163E-07   Total=     0.06557603
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24840405E+01         XY=  0.61960369E+00         XZ=  0.54865118E+00
                YY=  0.12448341E+01         YZ=  0.68705130E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7766508E-02 Y=  0.3031440E-08 Z=  0.4611705E-02  Total=      0.0090325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085720E+02         XY=  0.38832537E-01         XZ=  0.57451435E-01
                YY= -0.10161240E+02         YZ=  0.23058525E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38151297E-01 Y= -0.18043820E-11 Z=  0.10465420E-06   Total=     0.03815130
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19657871E+01         XY=  0.36047751E+00         XZ=  0.31919894E+00
                YY=  0.12448334E+01         YZ=  0.98881876E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9230314E-02 Y=  0.3031295E-08 Z=  0.4611819E-02  Total=      0.0103183
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071082E+02         XY=  0.46151568E-01         XZ=  0.63934258E-01
                YY= -0.10161240E+02         YZ=  0.23059095E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37889615E-02 Y=  0.34335565E-11 Z= -0.23809067E-07   Total=     0.00378896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11732319E+01         XY= -0.35800498E-01         XZ= -0.31700863E-01
                YY=  0.12448329E+01         YZ= -0.22493973E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7182290E-02 Y=  0.3031367E-08 Z=  0.4611664E-02  Total=      0.0085354
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091562E+02         XY=  0.35911450E-01         XZ=  0.54864129E-01
                YY= -0.10161240E+02         YZ=  0.23058316E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44287656E-01 Y=  0.66445593E-11 Z= -0.13362786E-06   Total=     0.04428766
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40791906E+00         XY= -0.41845770E+00         XZ= -0.37053948E+00
                YY=  0.12448332E+01         YZ= -0.12625504E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2401649E-02 Y=  0.3032957E-08 Z=  0.4611451E-02  Total=      0.0051994
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139368E+02         XY=  0.12008244E-01         XZ=  0.33692737E-01
                YY= -0.10161240E+02         YZ=  0.23057255E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67936171E-01 Y=  0.66182015E-11 Z= -0.71775322E-07   Total=     0.06793617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.38972987E-01         XY= -0.64190379E+00         XZ= -0.56839726E+00
                YY=  0.12448340E+01         YZ= -0.67812892E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3292713E-02 Y=  0.3039603E-08 Z=  0.4611474E-02  Total=      0.0056664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196312E+02         XY= -0.16463567E-01         XZ=  0.84762466E-02
                YY= -0.10161240E+02         YZ=  0.23057369E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65736908E-01 Y=  0.34534448E-11 Z=  0.77459244E-07   Total=     0.06573691
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25856021E-02         XY= -0.62112376E+00         XZ= -0.54999542E+00
                YY=  0.12448341E+01         YZ=  0.73190700E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7734253E-02 Y=  0.3052173E-08 Z=  0.4611700E-02  Total=      0.0090048
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240727E+02         XY= -0.38671266E-01         XZ= -0.11191299E-01
                YY= -0.10161240E+02         YZ=  0.23058496E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38526619E-01 Y= -0.14407718E-11 Z=  0.10832232E-06   Total=     0.03852662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51678451E+00         XY= -0.36402379E+00         XZ= -0.32233668E+00
                YY=  0.12448335E+01         YZ=  0.10234801E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9233092E-02 Y=  0.3052317E-08 Z=  0.4611816E-02  Total=      0.0103208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255716E+02         XY= -0.46165461E-01         XZ= -0.17828084E-01
                YY= -0.10161240E+02         YZ=  0.23059079E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33419537E-02 Y= -0.59110456E-11 Z= -0.22837989E-07   Total=     0.00334195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13079867E+01         XY=  0.31576886E-01         XZ=  0.27960966E-01
                YY=  0.12448329E+01         YZ= -0.21584238E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7218965E-02 Y=  0.3051234E-08 Z=  0.4611662E-02  Total=      0.0085663
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235574E+02         XY= -0.36094828E-01         XZ= -0.89095886E-02
                YY= -0.10161240E+02         YZ=  0.23058310E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43939001E-01 Y= -0.79651678E-11 Z= -0.13690816E-06   Total=     0.04393900
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20751612E+01         XY=  0.41516339E+00         XZ=  0.36762038E+00
                YY=  0.12448332E+01         YZ= -0.12936663E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2458192E-02 Y=  0.3049861E-08 Z=  0.4611449E-02  Total=      0.0052257
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187967E+02         XY= -0.12290964E-01         XZ=  0.12171713E-01
                YY= -0.10161240E+02         YZ=  0.23057241E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67818489E-01 Y= -0.66341406E-11 Z= -0.77968697E-07   Total=     0.06781849
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25264183E+01         XY=  0.64079185E+00         XZ=  0.56741179E+00
                YY=  0.12448340E+01         YZ= -0.73675810E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3237885E-02 Y=  0.3055135E-08 Z=  0.4611468E-02  Total=      0.0056347
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131006E+02         XY=  0.16189423E-01         XZ=  0.37396034E-01
                YY= -0.10161240E+02         YZ=  0.23057338E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65894939E-01 Y= -0.24160391E-11 Z=  0.72554829E-07   Total=     0.06589494
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24900670E+01         XY=  0.62261694E+00         XZ=  0.55131956E+00
                YY=  0.12448342E+01         YZ=  0.68551817E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7702067E-02 Y=  0.3068066E-08 Z=  0.4611693E-02  Total=      0.0089772
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086364E+02         XY=  0.38510335E-01         XZ=  0.57166120E-01
                YY= -0.10161240E+02         YZ=  0.23058462E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38900198E-01 Y=  0.29023135E-11 Z=  0.10824997E-06   Total=     0.03890020
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19799393E+01         XY=  0.36755361E+00         XZ=  0.32546483E+00
                YY=  0.12448335E+01         YZ=  0.10228326E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9235856E-02 Y=  0.3068427E-08 Z=  0.4611812E-02  Total=      0.0103233
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071026E+02         XY=  0.46179278E-01         XZ=  0.63958874E-01
                YY= -0.10161240E+02         YZ=  0.23059058E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28950058E-02 Y=  0.69821572E-11 Z= -0.18212833E-07   Total=     0.00289501
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11901252E+01         XY= -0.27353841E-01         XZ= -0.24221475E-01
                YY=  0.12448329E+01         YZ= -0.17203378E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7255684E-02 Y=  0.3067849E-08 Z=  0.4611661E-02  Total=      0.0085972
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090828E+02         XY=  0.36278417E-01         XZ=  0.55189230E-01
                YY= -0.10161240E+02         YZ=  0.23058301E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43588786E-01 Y=  0.79220469E-11 Z= -0.13045432E-06   Total=     0.04358879
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42112575E+00         XY= -0.41185434E+00         XZ= -0.36469245E+00
                YY=  0.12448332E+01         YZ= -0.12325543E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2514946E-02 Y=  0.3069294E-08 Z=  0.4611446E-02  Total=      0.0052527
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138235E+02         XY=  0.12574726E-01         XZ=  0.34194520E-01
                YY= -0.10161240E+02         YZ=  0.23057230E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67698309E-01 Y=  0.50744210E-11 Z= -0.71964724E-07   Total=     0.06769831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.34478048E-01         XY= -0.63965632E+00         XZ= -0.56640747E+00
                YY=  0.12448340E+01         YZ= -0.67993142E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3182647E-02 Y=  0.3076229E-08 Z=  0.4611464E-02  Total=      0.0056031
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195211E+02         XY= -0.15913235E-01         XZ=  0.89636818E-02
                YY= -0.10161240E+02         YZ=  0.23057316E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66050581E-01 Y= -0.66345817E-12 Z=  0.77785617E-07   Total=     0.06605058
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.33419495E-02         XY= -0.62408755E+00         XZ= -0.55262021E+00
                YY=  0.12448342E+01         YZ=  0.73495641E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7669323E-02 Y=  0.3088582E-08 Z=  0.4611688E-02  Total=      0.0089491
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240078E+02         XY= -0.38346618E-01         XZ= -0.10903769E-01
                YY= -0.10161240E+02         YZ=  0.23058437E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39272513E-01 Y= -0.72157785E-11 Z=  0.11252658E-06   Total=     0.03927251
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50268913E+00         XY= -0.37107147E+00         XZ= -0.32857774E+00
                YY=  0.12448335E+01         YZ=  0.10631563E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9238035E-02 Y=  0.3088149E-08 Z=  0.4611810E-02  Total=      0.0103252
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255765E+02         XY= -0.46190179E-01         XZ= -0.17849973E-01
                YY= -0.10161240E+02         YZ=  0.23059047E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24475973E-02 Y= -0.12197646E-10 Z= -0.16588694E-07   Total=     0.00244760
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12910857E+01         XY=  0.23126443E-01         XZ=  0.20477763E-01
                YY=  0.12448329E+01         YZ= -0.15684799E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7291937E-02 Y=  0.3087065E-08 Z=  0.4611661E-02  Total=      0.0086278
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236304E+02         XY= -0.36459687E-01         XZ= -0.92327285E-02
                YY= -0.10161240E+02         YZ=  0.23058301E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43236424E-01 Y= -0.13914357E-10 Z= -0.13322323E-06   Total=     0.04323642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20618844E+01         XY=  0.40852500E+00         XZ=  0.36174171E+00
                YY=  0.12448332E+01         YZ= -0.12588992E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2571468E-02 Y=  0.3085765E-08 Z=  0.4611445E-02  Total=      0.0052799
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189099E+02         XY= -0.12857342E-01         XZ=  0.11670062E-01
                YY= -0.10161240E+02         YZ=  0.23057222E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67574963E-01 Y= -0.12063098E-10 Z= -0.78025659E-07   Total=     0.06757496
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25218163E+01         XY=  0.63849087E+00         XZ=  0.56537383E+00
                YY=  0.12448340E+01         YZ= -0.73734250E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3127361E-02 Y=  0.3089449E-08 Z=  0.4611459E-02  Total=      0.0055719
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132111E+02         XY=  0.15636802E-01         XZ=  0.36906520E-01
                YY= -0.10161240E+02         YZ=  0.23057291E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66203080E-01 Y= -0.78355153E-11 Z=  0.72508546E-07   Total=     0.06620308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24958901E+01         XY=  0.62552845E+00         XZ=  0.55389727E+00
                YY=  0.12448342E+01         YZ=  0.68503464E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7636299E-02 Y=  0.3100574E-08 Z=  0.4611682E-02  Total=      0.0089208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087022E+02         XY=  0.38181494E-01         XZ=  0.56874781E-01
                YY= -0.10161240E+02         YZ=  0.23058408E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39642733E-01 Y= -0.33835382E-11 Z=  0.11167618E-06   Total=     0.03964273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19939712E+01         XY=  0.37456954E+00         XZ=  0.33167710E+00
                YY=  0.12448335E+01         YZ=  0.10551521E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9239818E-02 Y=  0.3101658E-08 Z=  0.4611807E-02  Total=      0.0103268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070987E+02         XY=  0.46199086E-01         XZ=  0.63976338E-01
                YY= -0.10161240E+02         YZ=  0.23059031E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20006115E-02 Y= -0.88213208E-12 Z= -0.12861385E-07   Total=     0.00200061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12070268E+01         XY= -0.18903040E-01         XZ= -0.16738501E-01
                YY=  0.12448329E+01         YZ= -0.12153661E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7327817E-02 Y=  0.3102741E-08 Z=  0.4611660E-02  Total=      0.0086582
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090107E+02         XY=  0.36639085E-01         XZ=  0.55508601E-01
                YY= -0.10161240E+02         YZ=  0.23058298E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42882825E-01 Y= -0.16006246E-11 Z= -0.12746459E-06   Total=     0.04288282
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43446645E+00         XY= -0.40518397E+00         XZ= -0.35878592E+00
                YY=  0.12448332E+01         YZ= -0.12043860E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2627756E-02 Y=  0.3104186E-08 Z=  0.4611444E-02  Total=      0.0053076
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137107E+02         XY=  0.13138776E-01         XZ=  0.34694012E-01
                YY= -0.10161240E+02         YZ=  0.23057216E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67449359E-01 Y= -0.53790132E-11 Z= -0.72288902E-07   Total=     0.06744936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.29773560E-01         XY= -0.63730408E+00         XZ= -0.56432449E+00
                YY=  0.12448340E+01         YZ= -0.68308299E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3072129E-02 Y=  0.3111844E-08 Z=  0.4611455E-02  Total=      0.0055411
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194106E+02         XY= -0.15360648E-01         XZ=  0.94529966E-02
                YY= -0.10161240E+02         YZ=  0.23057274E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66353321E-01 Y= -0.10726544E-10 Z=  0.77966732E-07   Total=     0.06635332
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.90628597E-02         XY= -0.62694802E+00         XZ= -0.55515292E+00
                YY=  0.12448342E+01         YZ=  0.73658226E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7603192E-02 Y=  0.3125136E-08 Z=  0.4611678E-02  Total=      0.0088925
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239417E+02         XY= -0.38015964E-01         XZ= -0.10611012E-01
                YY= -0.10161240E+02         YZ=  0.23058389E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40011707E-01 Y= -0.15485602E-10 Z=  0.11655981E-06   Total=     0.04001171
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48872041E+00         XY= -0.37805584E+00         XZ= -0.33476202E+00
                YY=  0.12448335E+01         YZ=  0.11011942E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9241493E-02 Y=  0.3124558E-08 Z=  0.4611805E-02  Total=      0.0103283
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255800E+02         XY= -0.46207467E-01         XZ= -0.17865342E-01
                YY= -0.10161240E+02         YZ=  0.23059025E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15532449E-02 Y= -0.17760687E-10 Z= -0.10550041E-07   Total=     0.00155324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12741849E+01         XY=  0.14676037E-01         XZ=  0.12995334E-01
                YY=  0.12448329E+01         YZ= -0.99839090E-07         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7363704E-02 Y=  0.3122607E-08 Z=  0.4611661E-02  Total=      0.0086886
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237022E+02         XY= -0.36818525E-01         XZ= -0.95505655E-02
                YY= -0.10161240E+02         YZ=  0.23058303E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42527232E-01 Y= -0.16704779E-10 Z= -0.12987962E-06   Total=     0.04252723
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20484826E+01         XY=  0.40182411E+00         XZ=  0.35580837E+00
                YY=  0.12448333E+01         YZ= -0.12273317E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2684274E-02 Y=  0.3120874E-08 Z=  0.4611443E-02  Total=      0.0053358
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190227E+02         XY= -0.13421373E-01         XZ=  0.11170487E-01
                YY= -0.10161240E+02         YZ=  0.23057215E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67320787E-01 Y= -0.12832877E-10 Z= -0.78678534E-07   Total=     0.06732079
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25170131E+01         XY=  0.63608925E+00         XZ=  0.56324731E+00
                YY=  0.12448340E+01         YZ= -0.74351945E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3016403E-02 Y=  0.3126075E-08 Z=  0.4611452E-02  Total=      0.0055104
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133221E+02         XY=  0.15082015E-01         XZ=  0.36415103E-01
                YY= -0.10161240E+02         YZ=  0.23057256E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66500636E-01 Y= -0.77454622E-11 Z=  0.71590032E-07   Total=     0.06650064
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25015131E+01         XY=  0.62833995E+00         XZ=  0.55638676E+00
                YY=  0.12448342E+01         YZ=  0.67635496E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7569375E-02 Y=  0.3138573E-08 Z=  0.4611674E-02  Total=      0.0088636
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087691E+02         XY=  0.37846872E-01         XZ=  0.56578344E-01
                YY= -0.10161240E+02         YZ=  0.23058366E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40378803E-01 Y= -0.34069392E-11 Z=  0.11406623E-06   Total=     0.04037880
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20078809E+01         XY=  0.38152440E+00         XZ=  0.33783535E+00
                YY=  0.12448336E+01         YZ=  0.10777330E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242356E-02 Y=  0.3139006E-08 Z=  0.4611803E-02  Total=      0.0103291
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070961E+02         XY=  0.46211780E-01         XZ=  0.63987522E-01
                YY= -0.10161240E+02         YZ=  0.23059013E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11061001E-02 Y= -0.13094799E-11 Z= -0.86096887E-08   Total=     0.00110610
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12239306E+01         XY= -0.10451131E-01         XZ= -0.92547402E-02
                YY=  0.12448330E+01         YZ= -0.81369038E-07         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7398820E-02 Y=  0.3139945E-08 Z=  0.4611661E-02  Total=      0.0087184
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089397E+02         XY=  0.36994096E-01         XZ=  0.55822972E-01
                YY= -0.10161240E+02         YZ=  0.23058304E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42170235E-01 Y= -0.18863614E-11 Z= -0.12569936E-06   Total=     0.04217024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44793242E+00         XY= -0.39845098E+00         XZ= -0.35282435E+00
                YY=  0.12448333E+01         YZ= -0.11877108E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2740171E-02 Y=  0.3142040E-08 Z=  0.4611443E-02  Total=      0.0053641
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135983E+02         XY=  0.13700855E-01         XZ=  0.35191746E-01
                YY= -0.10161240E+02         YZ=  0.23057213E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67189843E-01 Y= -0.44110996E-11 Z= -0.74132287E-07   Total=     0.06718984
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.24869403E-01         XY= -0.63485202E+00         XZ= -0.56215372E+00
                YY=  0.12448340E+01         YZ= -0.70049342E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2961109E-02 Y=  0.3148686E-08 Z=  0.4611449E-02  Total=      0.0054803
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192996E+02         XY= -0.14805545E-01         XZ=  0.99445020E-02
                YY= -0.10161240E+02         YZ=  0.23057241E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66645653E-01 Y= -0.73939763E-11 Z=  0.76263560E-07   Total=     0.06664565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.14587093E-01         XY= -0.62971016E+00         XZ= -0.55759925E+00
                YY=  0.12448342E+01         YZ=  0.72051672E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7535847E-02 Y=  0.3160895E-08 Z=  0.4611670E-02  Total=      0.0088350
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238743E+02         XY= -0.37679239E-01         XZ= -0.10312945E-01
                YY= -0.10161240E+02         YZ=  0.23058349E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40744700E-01 Y= -0.92718428E-11 Z=  0.11848407E-06   Total=     0.04074470
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47486885E+00         XY= -0.38498162E+00         XZ= -0.34089511E+00
                YY=  0.12448336E+01         YZ=  0.11194272E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9243489E-02 Y=  0.3160462E-08 Z=  0.4611802E-02  Total=      0.0103301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255820E+02         XY= -0.46217447E-01         XZ= -0.17874333E-01
                YY= -0.10161240E+02         YZ=  0.23059010E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65843573E-03 Y= -0.90740158E-11 Z= -0.66162018E-08   Total=     0.00065844
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12572754E+01         XY=  0.62213160E-02         XZ=  0.55085089E-02
                YY=  0.12448330E+01         YZ= -0.62597391E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7434327E-02 Y=  0.3159161E-08 Z=  0.4611663E-02  Total=      0.0087485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237728E+02         XY= -0.37171637E-01         XZ= -0.98634470E-02
                YY= -0.10161240E+02         YZ=  0.23058312E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41811023E-01 Y= -0.67793092E-11 Z= -0.12852150E-06   Total=     0.04181102
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20349482E+01         XY=  0.39505692E+00         XZ=  0.34981593E+00
                YY=  0.12448333E+01         YZ= -0.12144165E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2796700E-02 Y=  0.3158367E-08 Z=  0.4611443E-02  Total=      0.0053932
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191352E+02         XY= -0.13983500E-01         XZ=  0.10672472E-01
                YY= -0.10161240E+02         YZ=  0.23057214E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67055654E-01 Y= -0.32370410E-11 Z= -0.81237720E-07   Total=     0.06705565
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25120028E+01         XY=  0.63358411E+00         XZ=  0.56102896E+00
                YY=  0.12448341E+01         YZ= -0.76762001E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2904903E-02 Y=  0.3162484E-08 Z=  0.4611446E-02  Total=      0.0054501
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134336E+02         XY=  0.14524511E-01         XZ=  0.35921154E-01
                YY= -0.10161240E+02         YZ=  0.23057226E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66787450E-01 Y=  0.27229503E-12 Z=  0.68790181E-07   Total=     0.06678745
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25069331E+01         XY=  0.63104995E+00         XZ=  0.55878647E+00
                YY=  0.12448342E+01         YZ=  0.64996752E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7501176E-02 Y=  0.3173465E-08 Z=  0.4611666E-02  Total=      0.0088054
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088373E+02         XY=  0.37505877E-01         XZ=  0.56276147E-01
                YY= -0.10161240E+02         YZ=  0.23058327E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41108458E-01 Y=  0.26100351E-11 Z=  0.11465327E-06   Total=     0.04110846
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20216694E+01         XY=  0.38841864E+00         XZ=  0.34394029E+00
                YY=  0.12448336E+01         YZ=  0.10833306E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9243364E-02 Y=  0.3174043E-08 Z=  0.4611800E-02  Total=      0.0103300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070951E+02         XY=  0.46216818E-01         XZ=  0.63991828E-01
                YY= -0.10161240E+02         YZ=  0.23058999E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21117924E-03 Y=  0.32281496E-11 Z= -0.59669170E-08   Total=     0.00021118
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12408421E+01         XY= -0.19953546E-02         XZ= -0.17670043E-02
                YY=  0.12448330E+01         YZ= -0.56359396E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7468612E-02 Y=  0.3173971E-08 Z=  0.4611663E-02  Total=      0.0087777
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088699E+02         XY=  0.37343056E-01         XZ=  0.56131914E-01
                YY= -0.10161240E+02         YZ=  0.23058313E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41450486E-01 Y=  0.23111080E-11 Z= -0.12529295E-06   Total=     0.04145049
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46153368E+00         XY= -0.39165033E+00         XZ= -0.34680222E+00
                YY=  0.12448333E+01         YZ= -0.11838342E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2852160E-02 Y=  0.3174910E-08 Z=  0.4611443E-02  Total=      0.0054222
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134863E+02         XY=  0.14260799E-01         XZ=  0.35687550E-01
                YY= -0.10161240E+02         YZ=  0.23057212E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66919049E-01 Y=  0.58991450E-12 Z= -0.77111573E-07   Total=     0.06691905
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.19752125E-01         XY= -0.63229338E+00         XZ= -0.55988790E+00
                YY=  0.12448340E+01         YZ= -0.72860003E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2849560E-02 Y=  0.3181484E-08 Z=  0.4611443E-02  Total=      0.0054208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191880E+02         XY= -0.14247804E-01         XZ=  0.10438333E-01
                YY= -0.10161240E+02         YZ=  0.23057212E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66926786E-01 Y= -0.10454979E-11 Z=  0.73620869E-07   Total=     0.06692679
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.19899728E-01         XY= -0.63236648E+00         XZ= -0.55995128E+00
                YY=  0.12448343E+01         YZ=  0.69560175E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7467205E-02 Y=  0.3193042E-08 Z=  0.4611663E-02  Total=      0.0087765
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238057E+02         XY= -0.37336026E-01         XZ= -0.10009121E-01
                YY= -0.10161240E+02         YZ=  0.23058311E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41470753E-01 Y= -0.19347666E-11 Z=  0.11967222E-06   Total=     0.04147075
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46114843E+00         XY= -0.39184182E+00         XZ= -0.34696968E+00
                YY=  0.12448336E+01         YZ=  0.11307165E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9243890E-02 Y=  0.3192970E-08 Z=  0.4611800E-02  Total=      0.0103304
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255824E+02         XY= -0.46219450E-01         XZ= -0.17876233E-01
                YY= -0.10161240E+02         YZ=  0.23058996E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23626251E-03 Y= -0.18635062E-11 Z= -0.32701986E-08   Total=     0.00023626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12403680E+01         XY= -0.22323572E-02         XZ= -0.19771271E-02
                YY=  0.12448330E+01         YZ= -0.30920513E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7503637E-02 Y=  0.3192609E-08 Z=  0.4611665E-02  Total=      0.0088075
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238421E+02         XY= -0.37518187E-01         XZ= -0.10170482E-01
                YY= -0.10161240E+02         YZ=  0.23058322E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41088107E-01 Y= -0.10404653E-11 Z= -0.12780727E-06   Total=     0.04108811
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20212870E+01         XY=  0.38822634E+00         XZ=  0.34376743E+00
                YY=  0.12448333E+01         YZ= -0.12076186E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2908566E-02 Y=  0.3192031E-08 Z=  0.4611443E-02  Total=      0.0054521
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192470E+02         XY= -0.14542831E-01         XZ=  0.10176967E-01
                YY= -0.10161240E+02         YZ=  0.23057215E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66779582E-01 Y=  0.10699398E-12 Z= -0.84759557E-07   Total=     0.06677958
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25067858E+01         XY=  0.63097560E+00         XZ=  0.55871895E+00
                YY=  0.12448340E+01         YZ= -0.80086709E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2793026E-02 Y=  0.3197810E-08 Z=  0.4611440E-02  Total=      0.0053913
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135455E+02         XY=  0.13965129E-01         XZ=  0.35425567E-01
                YY= -0.10161240E+02         YZ=  0.23057196E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67063273E-01 Y=  0.11842696E-11 Z=  0.64600474E-07   Total=     0.06706327
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25121454E+01         XY=  0.63365610E+00         XZ=  0.56109394E+00
                YY=  0.12448343E+01         YZ=  0.61038989E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7431841E-02 Y=  0.3209946E-08 Z=  0.4611658E-02  Total=      0.0087464
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089067E+02         XY=  0.37159201E-01         XZ=  0.55968930E-01
                YY= -0.10161240E+02         YZ=  0.23058288E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41831249E-01 Y=  0.19911138E-11 Z=  0.11355916E-06   Total=     0.04183125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20353281E+01         XY=  0.39524802E+00         XZ=  0.34998742E+00
                YY=  0.12448336E+01         YZ=  0.10729896E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242937E-02 Y=  0.3212403E-08 Z=  0.4611797E-02  Total=      0.0103296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070956E+02         XY=  0.46214683E-01         XZ=  0.63989779E-01
                YY= -0.10161240E+02         YZ=  0.23058983E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68359856E-03 Y=  0.25301123E-11 Z= -0.50725812E-08   Total=     0.00068360
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12577509E+01         XY=  0.64590704E-02         XZ=  0.57191374E-02
                YY=  0.12448330E+01         YZ= -0.47912866E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7537245E-02 Y=  0.3213775E-08 Z=  0.4611664E-02  Total=      0.0088361
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088013E+02         XY=  0.37686221E-01         XZ=  0.56435704E-01
                YY= -0.10161240E+02         YZ=  0.23058320E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40724136E-01 Y=  0.28944783E-11 Z= -0.12662017E-06   Total=     0.04072414
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47525965E+00         XY= -0.38478732E+00         XZ= -0.34072523E+00
                YY=  0.12448332E+01         YZ= -0.11963677E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2963731E-02 Y=  0.3213992E-08 Z=  0.4611442E-02  Total=      0.0054817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133748E+02         XY=  0.14818654E-01         XZ=  0.36181474E-01
                YY= -0.10161240E+02         YZ=  0.23057210E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66637461E-01 Y=  0.31322340E-11 Z= -0.81907591E-07   Total=     0.06663746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.14430894E-01         XY= -0.62963276E+00         XZ= -0.55753204E+00
                YY=  0.12448340E+01         YZ= -0.77389278E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2737508E-02 Y=  0.3220855E-08 Z=  0.4611436E-02  Total=      0.0053628
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190760E+02         XY= -0.13687540E-01         XZ=  0.10934359E-01
                YY= -0.10161240E+02         YZ=  0.23057179E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67197075E-01 Y=  0.31895362E-11 Z=  0.68983678E-07   Total=     0.06719707
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.25007442E-01         XY= -0.63492034E+00         XZ= -0.56221272E+00
                YY=  0.12448343E+01         YZ=  0.65182360E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7397308E-02 Y=  0.3233641E-08 Z=  0.4611654E-02  Total=      0.0087171
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237358E+02         XY= -0.36986544E-01         XZ= -0.96997856E-02
                YY= -0.10161240E+02         YZ=  0.23058268E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42190060E-01 Y=  0.29742701E-11 Z=  0.11876873E-06   Total=     0.04219006
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44755547E+00         XY= -0.39863829E+00         XZ= -0.35298780E+00
                YY=  0.12448336E+01         YZ=  0.11222223E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9242746E-02 Y=  0.3235375E-08 Z=  0.4611796E-02  Total=      0.0103294
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255813E+02         XY= -0.46213730E-01         XZ= -0.17871331E-01
                YY= -0.10161240E+02         YZ=  0.23058976E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11308863E-02 Y=  0.24937200E-11 Z= -0.18875806E-08   Total=     0.00113089
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12234620E+01         XY= -0.10685327E-01         XZ= -0.94619797E-02
                YY=  0.12448330E+01         YZ= -0.17818684E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7571681E-02 Y=  0.3235736E-08 Z=  0.4611665E-02  Total=      0.0088655
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239102E+02         XY= -0.37858406E-01         XZ= -0.10471939E-01
                YY= -0.10161240E+02         YZ=  0.23058325E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40358580E-01 Y=  0.19649376E-11 Z= -0.12871373E-06   Total=     0.04035858
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20075009E+01         XY=  0.38133332E+00         XZ=  0.33766391E+00
                YY=  0.12448332E+01         YZ= -0.12161564E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3019905E-02 Y=  0.3235520E-08 Z=  0.4611442E-02  Total=      0.0055123
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193584E+02         XY= -0.15099528E-01         XZ=  0.96837811E-02
                YY= -0.10161240E+02         YZ=  0.23057209E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66492762E-01 Y=  0.17994827E-11 Z= -0.89430514E-07   Total=     0.06649276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25013657E+01         XY=  0.62826555E+00         XZ=  0.55631941E+00
                YY=  0.12448340E+01         YZ= -0.84498484E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2680761E-02 Y=  0.3241155E-08 Z=  0.4611432E-02  Total=      0.0053340
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136577E+02         XY=  0.13403801E-01         XZ=  0.34928258E-01
                YY= -0.10161240E+02         YZ=  0.23057160E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67328342E-01 Y=  0.24350474E-11 Z=  0.59828125E-07   Total=     0.06732834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25171545E+01         XY=  0.63616064E+00         XZ=  0.56331188E+00
                YY=  0.12448343E+01         YZ=  0.56531075E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7361376E-02 Y=  0.3252063E-08 Z=  0.4611649E-02  Total=      0.0086866
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089771E+02         XY=  0.36806875E-01         XZ=  0.55656728E-01
                YY= -0.10161240E+02         YZ=  0.23058241E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42547415E-01 Y=  0.40813759E-11 Z=  0.11253775E-06   Total=     0.04254742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20488617E+01         XY=  0.40201481E+00         XZ=  0.35597956E+00
                YY=  0.12448336E+01         YZ=  0.10633589E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9241101E-02 Y=  0.3252496E-08 Z=  0.4611792E-02  Total=      0.0103280
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070974E+02         XY=  0.46205501E-01         XZ=  0.63981520E-01
                YY= -0.10161240E+02         YZ=  0.23058958E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15784383E-02 Y=  0.65171268E-11 Z= -0.34563537E-08   Total=     0.00157844
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12746608E+01         XY=  0.14914081E-01         XZ=  0.13206166E-01
                YY=  0.12448330E+01         YZ= -0.32605739E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7604758E-02 Y=  0.3252207E-08 Z=  0.4611664E-02  Total=      0.0088938
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087337E+02         XY=  0.38023788E-01         XZ=  0.56734584E-01
                YY= -0.10161240E+02         YZ=  0.23058319E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39991037E-01 Y=  0.90721983E-11 Z= -0.12676039E-06   Total=     0.03999104
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48911316E+00         XY= -0.37786054E+00         XZ= -0.33459149E+00
                YY=  0.12448332E+01         YZ= -0.11976383E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3074934E-02 Y=  0.3253724E-08 Z=  0.4611440E-02  Total=      0.0055426
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132636E+02         XY=  0.15374670E-01         XZ=  0.36673825E-01
                YY= -0.10161240E+02         YZ=  0.23057200E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66344993E-01 Y=  0.10849788E-10 Z= -0.85324665E-07   Total=     0.06634499
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.89040641E-02         XY= -0.62686934E+00         XZ= -0.55508499E+00
                YY=  0.12448340E+01         YZ= -0.80611239E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2624895E-02 Y=  0.3261526E-08 Z=  0.4611428E-02  Total=      0.0053062
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189634E+02         XY= -0.13124478E-01         XZ=  0.11432927E-01
                YY= -0.10161240E+02         YZ=  0.23057140E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67456494E-01 Y=  0.11115984E-10 Z=  0.65762645E-07   Total=     0.06745649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.29909732E-01         XY= -0.63737149E+00         XZ= -0.56438316E+00
                YY=  0.12448343E+01         YZ=  0.62145819E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7326101E-02 Y=  0.3273446E-08 Z=  0.4611644E-02  Total=      0.0086567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236646E+02         XY= -0.36630507E-01         XZ= -0.93845821E-02
                YY= -0.10161240E+02         YZ=  0.23058219E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42902652E-01 Y=  0.96838333E-11 Z=  0.11937212E-06   Total=     0.04290265
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43408942E+00         XY= -0.40537131E+00         XZ= -0.35894978E+00
                YY=  0.12448336E+01         YZ=  0.11279825E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9240003E-02 Y=  0.3275180E-08 Z=  0.4611790E-02  Total=      0.0103270
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255785E+02         XY= -0.46200016E-01         XZ= -0.17859289E-01
                YY= -0.10161240E+02         YZ=  0.23058949E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20255215E-02 Y=  0.70907047E-11 Z=  0.12126296E-08   Total=     0.00202552
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12065558E+01         XY= -0.19138404E-01         XZ= -0.16947061E-01
                YY=  0.12448330E+01         YZ=  0.11515778E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7638412E-02 Y=  0.3275975E-08 Z=  0.4611665E-02  Total=      0.0089226
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239769E+02         XY= -0.38192060E-01         XZ= -0.10767526E-01
                YY= -0.10161240E+02         YZ=  0.23058323E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39622297E-01 Y=  0.44486026E-11 Z= -0.12770735E-06   Total=     0.03962230
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19935871E+01         XY=  0.37437645E+00         XZ=  0.33150367E+00
                YY=  0.12448332E+01         YZ= -0.12066232E-05         ZZ=  0.12448312E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3130684E-02 Y=  0.3275397E-08 Z=  0.4611440E-02  Total=      0.0055737
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194692E+02         XY= -0.15653424E-01         XZ=  0.91931243E-02
                YY= -0.10161240E+02         YZ=  0.23057198E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66194982E-01 Y=  0.29935073E-11 Z= -0.92162477E-07   Total=     0.06619498
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24957385E+01         XY=  0.62545194E+00         XZ=  0.55382793E+00
                YY=  0.12448340E+01         YZ= -0.87078447E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2568120E-02 Y=  0.3281320E-08 Z=  0.4611424E-02  Total=      0.0052783
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137704E+02         XY=  0.12840597E-01         XZ=  0.34429328E-01
                YY= -0.10161240E+02         YZ=  0.23057120E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67582384E-01 Y=  0.35170807E-11 Z=  0.56869934E-07   Total=     0.06758238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25219552E+01         XY=  0.63856099E+00         XZ=  0.56543731E+00
                YY=  0.12448343E+01         YZ=  0.53737264E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7289770E-02 Y=  0.3292807E-08 Z=  0.4611639E-02  Total=      0.0086260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090487E+02         XY=  0.36448849E-01         XZ=  0.55339507E-01
                YY= -0.10161240E+02         YZ=  0.23058191E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43256646E-01 Y=  0.59420721E-11 Z=  0.11320504E-06   Total=     0.04325665
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20622642E+01         XY=  0.40871607E+00         XZ=  0.36191347E+00
                YY=  0.12448336E+01         YZ=  0.10696830E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9237817E-02 Y=  0.3294035E-08 Z=  0.4611787E-02  Total=      0.0103250
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071007E+02         XY=  0.46189084E-01         XZ=  0.63966879E-01
                YY= -0.10161240E+02         YZ=  0.23058930E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24730376E-02 Y=  0.92637710E-11 Z= -0.19247176E-09   Total=     0.00247304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12915663E+01         XY=  0.23366819E-01         XZ=  0.20691079E-01
                YY=  0.12448330E+01         YZ= -0.17400819E-08         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7671090E-02 Y=  0.3295769E-08 Z=  0.4611664E-02  Total=      0.0089506
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086674E+02         XY=  0.38355450E-01         XZ=  0.57028257E-01
                YY= -0.10161240E+02         YZ=  0.23058316E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39251418E-01 Y=  0.11921691E-10 Z= -0.12527530E-06   Total=     0.03925142
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50308991E+00         XY= -0.37087215E+00         XZ= -0.32840318E+00
                YY=  0.12448332E+01         YZ= -0.11835791E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3185691E-02 Y=  0.3297936E-08 Z=  0.4611438E-02  Total=      0.0056048
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131528E+02         XY=  0.15928454E-01         XZ=  0.37164227E-01
                YY= -0.10161240E+02         YZ=  0.23057190E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66041736E-01 Y=  0.12470240E-10 Z= -0.87205123E-07   Total=     0.06604174
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.31733215E-02         XY= -0.62400397E+00         XZ= -0.55254751E+00
                YY=  0.12448340E+01         YZ= -0.82386328E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2511805E-02 Y=  0.3304437E-08 Z=  0.4611420E-02  Total=      0.0052511
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188503E+02         XY= -0.12559028E-01         XZ=  0.11933644E-01
                YY= -0.10161240E+02         YZ=  0.23057100E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67704950E-01 Y=  0.10257542E-10 Z=  0.63976810E-07   Total=     0.06770495
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.34604853E-01         XY= -0.63971907E+00         XZ= -0.56646161E+00
                YY=  0.12448343E+01         YZ=  0.60458054E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7253654E-02 Y=  0.3315057E-08 Z=  0.4611634E-02  Total=      0.0085955
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235922E+02         XY= -0.36268273E-01         XZ= -0.90638423E-02
                YY= -0.10161240E+02         YZ=  0.23058168E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43608254E-01 Y=  0.57953011E-11 Z=  0.12145438E-06   Total=     0.04360825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42075548E+00         XY= -0.41203829E+00         XZ= -0.36485293E+00
                YY=  0.12448337E+01         YZ=  0.11476276E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9235709E-02 Y=  0.3315996E-08 Z=  0.4611785E-02  Total=      0.0103231
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255742E+02         XY= -0.46178545E-01         XZ= -0.17840313E-01
                YY= -0.10161240E+02         YZ=  0.23058922E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29197606E-02 Y=  0.62174191E-12 Z=  0.60611378E-08   Total=     0.00291976
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11896571E+01         XY= -0.27587739E-01         XZ= -0.24428434E-01
                YY=  0.12448330E+01         YZ=  0.57276375E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7703846E-02 Y=  0.3317080E-08 Z=  0.4611665E-02  Total=      0.0089787
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240424E+02         XY= -0.38519230E-01         XZ= -0.11057289E-01
                YY= -0.10161240E+02         YZ=  0.23058321E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38879706E-01 Y= -0.33153377E-11 Z= -0.12454524E-06   Total=     0.03887971
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19795542E+01         XY=  0.36735998E+00         XZ=  0.32529103E+00
                YY=  0.12448332E+01         YZ= -0.11768078E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3240888E-02 Y=  0.3317296E-08 Z=  0.4611439E-02  Total=      0.0056364
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195794E+02         XY= -0.16204443E-01         XZ=  0.87051120E-02
                YY= -0.10161240E+02         YZ=  0.23057191E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65886624E-01 Y= -0.45041394E-11 Z= -0.92346885E-07   Total=     0.06588662
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24899114E+01         XY=  0.62253837E+00         XZ=  0.55124825E+00
                YY=  0.12448340E+01         YZ= -0.87258709E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2455141E-02 Y=  0.3323003E-08 Z=  0.4611417E-02  Total=      0.0052243
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138834E+02         XY=  0.12275705E-01         XZ=  0.33929010E-01
                YY= -0.10161240E+02         YZ=  0.23057084E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67825616E-01 Y= -0.25673074E-11 Z=  0.56754046E-07   Total=     0.06782562
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25265517E+01         XY=  0.64085920E+00         XZ=  0.56747250E+00
                YY=  0.12448343E+01         YZ=  0.53622901E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7217070E-02 Y=  0.3333839E-08 Z=  0.4611629E-02  Total=      0.0085646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091214E+02         XY=  0.36085349E-01         XZ=  0.55017552E-01
                YY= -0.10161240E+02         YZ=  0.23058144E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43958943E-01 Y=  0.15147588E-11 Z=  0.11689199E-06   Total=     0.04395894
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20755357E+01         XY=  0.41535182E+00         XZ=  0.36778943E+00
                YY=  0.12448337E+01         YZ=  0.11044846E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9233124E-02 Y=  0.3335356E-08 Z=  0.4611782E-02  Total=      0.0103208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071054E+02         XY=  0.46165618E-01         XZ=  0.63946108E-01
                YY= -0.10161240E+02         YZ=  0.23058908E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33671919E-02 Y=  0.57851914E-11 Z=  0.60846433E-08   Total=     0.00336719
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13084633E+01         XY=  0.31815353E-01         XZ=  0.28172183E-01
                YY=  0.12448330E+01         YZ=  0.57542628E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7736257E-02 Y=  0.3337451E-08 Z=  0.4611664E-02  Total=      0.0090065
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086023E+02         XY=  0.38681282E-01         XZ=  0.57316874E-01
                YY= -0.10161240E+02         YZ=  0.23058320E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38505627E-01 Y=  0.81531367E-11 Z= -0.12107607E-06   Total=     0.03850563
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51718330E+00         XY= -0.36382545E+00         XZ= -0.32216344E+00
                YY=  0.12448332E+01         YZ= -0.11439323E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3295989E-02 Y=  0.3340124E-08 Z=  0.4611438E-02  Total=      0.0056682
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130425E+02         XY=  0.16479941E-01         XZ=  0.37652693E-01
                YY= -0.10161240E+02         YZ=  0.23057188E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65728088E-01 Y=  0.73341147E-11 Z= -0.86954353E-07   Total=     0.06572809
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27537909E-02         XY= -0.62104043E+00         XZ= -0.54992340E+00
                YY=  0.12448340E+01         YZ= -0.82153576E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2398279E-02 Y=  0.3347493E-08 Z=  0.4611414E-02  Total=      0.0051978
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187368E+02         XY= -0.11991396E-01         XZ=  0.12436381E-01
                YY= -0.10161240E+02         YZ=  0.23057070E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67942805E-01 Y=  0.34651411E-11 Z=  0.63685680E-07   Total=     0.06794280
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.39099594E-01         XY= -0.64196647E+00         XZ= -0.56845167E+00
                YY=  0.12448343E+01         YZ=  0.60177380E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7180031E-02 Y=  0.3358618E-08 Z=  0.4611626E-02  Total=      0.0085335
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235186E+02         XY= -0.35900157E-01         XZ= -0.87378191E-02
                YY= -0.10161240E+02         YZ=  0.23058127E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44307128E-01 Y= -0.18987983E-11 Z=  0.12464731E-06   Total=     0.04430713
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40754870E+00         XY= -0.41864169E+00         XZ= -0.37070005E+00
                YY=  0.12448337E+01         YZ=  0.11777329E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9229939E-02 Y=  0.3360207E-08 Z=  0.4611781E-02  Total=      0.0103180
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255685E+02         XY= -0.46149698E-01         XZ= -0.17814740E-01
                YY= -0.10161240E+02         YZ=  0.23058904E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38137543E-02 Y= -0.64305975E-11 Z=  0.11992470E-07   Total=     0.00381375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11727631E+01         XY= -0.36034756E-01         XZ= -0.31907917E-01
                YY=  0.12448330E+01         YZ=  0.11326123E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7768064E-02 Y=  0.3360713E-08 Z=  0.4611666E-02  Total=      0.0090338
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241066E+02         XY= -0.38840321E-01         XZ= -0.11341607E-01
                YY= -0.10161240E+02         YZ=  0.23058329E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38130740E-01 Y= -0.80478077E-11 Z= -0.12016774E-06   Total=     0.03813074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19654008E+01         XY=  0.36028328E+00         XZ=  0.31902504E+00
                YY=  0.12448332E+01         YZ= -0.11354849E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3350598E-02 Y=  0.3359918E-08 Z=  0.4611439E-02  Total=      0.0057002
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196891E+02         XY= -0.16752993E-01         XZ=  0.82193509E-02
                YY= -0.10161240E+02         YZ=  0.23057194E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65567657E-01 Y= -0.58533483E-11 Z= -0.91313420E-07   Total=     0.06556766
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24838838E+01         XY=  0.61952458E+00         XZ=  0.54857997E+00
                YY=  0.12448340E+01         YZ= -0.86283237E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2341744E-02 Y=  0.3365264E-08 Z=  0.4611412E-02  Total=      0.0051719
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139968E+02         XY=  0.11708719E-01         XZ=  0.33426913E-01
                YY= -0.10161240E+02         YZ=  0.23057060E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68058016E-01 Y= -0.57269044E-12 Z=  0.57619291E-07   Total=     0.06805802
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25309435E+01         XY=  0.64305505E+00         XZ=  0.56941735E+00
                YY=  0.12448343E+01         YZ=  0.54442229E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7143194E-02 Y=  0.3375378E-08 Z=  0.4611622E-02  Total=      0.0085025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091953E+02         XY=  0.35715969E-01         XZ=  0.54690478E-01
                YY= -0.10161240E+02         YZ=  0.23058109E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44654289E-01 Y=  0.57236993E-11 Z=  0.12120927E-06   Total=     0.04465429
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20886759E+01         XY=  0.42192188E+00         XZ=  0.37360762E+00
                YY=  0.12448337E+01         YZ=  0.11453133E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9226941E-02 Y=  0.3376100E-08 Z=  0.4611780E-02  Total=      0.0103153
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071116E+02         XY=  0.46134703E-01         XZ=  0.63918845E-01
                YY= -0.10161240E+02         YZ=  0.23058896E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42609189E-02 Y=  0.10507007E-10 Z=  0.12711312E-07   Total=     0.00426092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13253523E+01         XY=  0.40259849E-01         XZ=  0.35650151E-01
                YY=  0.12448331E+01         YZ=  0.12019613E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7800183E-02 Y=  0.3377690E-08 Z=  0.4611667E-02  Total=      0.0090615
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085383E+02         XY=  0.39000912E-01         XZ=  0.57600122E-01
                YY= -0.10161240E+02         YZ=  0.23058334E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37753566E-01 Y=  0.11899548E-10 Z= -0.11665062E-06   Total=     0.03775357
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53139521E+00         XY= -0.35671950E+00         XZ= -0.31587083E+00
                YY=  0.12448333E+01         YZ= -0.11020855E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3405764E-02 Y=  0.3378990E-08 Z=  0.4611440E-02  Total=      0.0057328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129328E+02         XY=  0.17028820E-01         XZ=  0.38138988E-01
                YY= -0.10161240E+02         YZ=  0.23057198E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65403841E-01 Y=  0.95125444E-11 Z= -0.86436054E-07   Total=     0.06540384
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88812271E-02         XY= -0.61797673E+00         XZ= -0.54721027E+00
                YY=  0.12448340E+01         YZ= -0.81661910E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2284358E-02 Y=  0.3386503E-08 Z=  0.4611411E-02  Total=      0.0051462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186229E+02         XY= -0.11421790E-01         XZ=  0.12941014E-01
                YY= -0.10161240E+02         YZ=  0.23057052E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68169748E-01 Y=  0.46321466E-11 Z=  0.63867744E-07   Total=     0.06816975
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.43388128E-01         XY= -0.64411077E+00         XZ= -0.57035024E+00
                YY=  0.12448344E+01         YZ=  0.60350539E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7105247E-02 Y=  0.3396833E-08 Z=  0.4611620E-02  Total=      0.0084706
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234438E+02         XY= -0.35526236E-01         XZ= -0.84065030E-02
                YY= -0.10161240E+02         YZ=  0.23058098E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44998929E-01 Y= -0.34201580E-12 Z=  0.12864071E-06   Total=     0.04499893
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39447562E+00         XY= -0.42517826E+00         XZ= -0.37648798E+00
                YY=  0.12448338E+01         YZ=  0.12154801E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9222685E-02 Y=  0.3397267E-08 Z=  0.4611780E-02  Total=      0.0103115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255612E+02         XY= -0.46113427E-01         XZ= -0.17782446E-01
                YY= -0.10161240E+02         YZ=  0.23058898E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47072218E-02 Y= -0.29624512E-11 Z=  0.19001167E-07   Total=     0.00470722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11558790E+01         XY= -0.44476800E-01         XZ= -0.39383163E-01
                YY=  0.12448331E+01         YZ=  0.17951520E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7831041E-02 Y=  0.3397628E-08 Z=  0.4611671E-02  Total=      0.0090881
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241696E+02         XY= -0.39155209E-01         XZ= -0.11620298E-01
                YY= -0.10161240E+02         YZ=  0.23058351E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37375511E-01 Y= -0.18306878E-11 Z= -0.11473238E-06   Total=     0.03737551
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19511290E+01         XY=  0.35314740E+00         XZ=  0.31270631E+00
                YY=  0.12448333E+01         YZ= -0.10840737E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3459792E-02 Y=  0.3397628E-08 Z=  0.4611443E-02  Total=      0.0057650
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197983E+02         XY= -0.17298962E-01         XZ=  0.77359935E-02
                YY= -0.10161240E+02         YZ=  0.23057211E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65237961E-01 Y=  0.27662235E-11 Z= -0.89642519E-07   Total=     0.06523796
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24776535E+01         XY=  0.61640940E+00         XZ=  0.54582143E+00
                YY=  0.12448341E+01         YZ= -0.84697007E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2227930E-02 Y=  0.3404130E-08 Z=  0.4611410E-02  Total=      0.0051214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141106E+02         XY=  0.11139648E-01         XZ=  0.32923063E-01
                YY= -0.10161239E+02         YZ=  0.23057049E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68279229E-01 Y=  0.89701498E-11 Z=  0.58474550E-07   Total=     0.06827923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25351239E+01         XY=  0.64514521E+00         XZ=  0.57126804E+00
                YY=  0.12448344E+01         YZ=  0.55258540E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7068108E-02 Y=  0.3414677E-08 Z=  0.4611618E-02  Total=      0.0084395
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092704E+02         XY=  0.35340536E-01         XZ=  0.54358112E-01
                YY= -0.10161240E+02         YZ=  0.23058087E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45342176E-01 Y=  0.14170665E-10 Z=  0.12495541E-06   Total=     0.04534218
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21016751E+01         XY=  0.42842148E+00         XZ=  0.37936285E+00
                YY=  0.12448338E+01         YZ=  0.11807819E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9219190E-02 Y=  0.3415905E-08 Z=  0.4611780E-02  Total=      0.0103083
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071194E+02         XY=  0.46095947E-01         XZ=  0.63884683E-01
                YY= -0.10161240E+02         YZ=  0.23058896E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51536955E-02 Y=  0.16164461E-10 Z=  0.18455522E-07   Total=     0.00515370
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13422234E+01         XY=  0.48695366E-01         XZ=  0.43119669E-01
                YY=  0.12448331E+01         YZ=  0.17452036E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7862751E-02 Y=  0.3416627E-08 Z=  0.4611673E-02  Total=      0.0091154
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084758E+02         XY=  0.39313754E-01         XZ=  0.57877387E-01
                YY= -0.10161240E+02         YZ=  0.23058362E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36995624E-01 Y=  0.14136411E-10 Z= -0.11327483E-06   Total=     0.03699562
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54571825E+00         XY= -0.34955799E+00         XZ= -0.30952937E+00
                YY=  0.12448333E+01         YZ= -0.10701680E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3514879E-02 Y=  0.3416989E-08 Z=  0.4611445E-02  Total=      0.0057983
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128236E+02         XY=  0.17574393E-01         XZ=  0.38622375E-01
                YY= -0.10161239E+02         YZ=  0.23057221E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65069134E-01 Y=  0.90207261E-11 Z= -0.87193970E-07   Total=     0.06506913
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15206318E-01         XY= -0.61481421E+00         XZ= -0.54440981E+00
                YY=  0.12448341E+01         YZ= -0.82378216E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2170181E-02 Y=  0.3423201E-08 Z=  0.4611410E-02  Total=      0.0050965
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185087E+02         XY= -0.10850908E-01         XZ=  0.13446796E-01
                YY= -0.10161239E+02         YZ=  0.23057046E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68385626E-01 Y=  0.30794297E-11 Z=  0.62428369E-07   Total=     0.06838563
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.47467546E-01         XY= -0.64615052E+00         XZ= -0.57215623E+00
                YY=  0.12448344E+01         YZ=  0.58989478E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7029418E-02 Y=  0.3431870E-08 Z=  0.4611616E-02  Total=      0.0084071
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233680E+02         XY= -0.35147094E-01         XZ= -0.80705416E-02
                YY= -0.10161239E+02         YZ=  0.23058080E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45683241E-01 Y= -0.11088255E-11 Z=  0.13066745E-06   Total=     0.04568324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38154404E+00         XY= -0.43164408E+00         XZ= -0.38221307E+00
                YY=  0.12448338E+01         YZ=  0.12346261E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9214023E-02 Y=  0.3432593E-08 Z=  0.4611781E-02  Total=      0.0103037
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255526E+02         XY= -0.46070117E-01         XZ= -0.17743886E-01
                YY= -0.10161240E+02         YZ=  0.23058901E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55995860E-02 Y= -0.17959014E-11 Z=  0.23822798E-07   Total=     0.00559959
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11390158E+01         XY= -0.52908420E-01         XZ= -0.46848868E-01
                YY=  0.12448331E+01         YZ=  0.22508503E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7892808E-02 Y=  0.3433243E-08 Z=  0.4611677E-02  Total=      0.0091413
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242314E+02         XY= -0.39464043E-01         XZ= -0.11893579E-01
                YY= -0.10161239E+02         YZ=  0.23058381E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36614634E-01 Y=  0.11704042E-11 Z= -0.11158066E-06   Total=     0.03661463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19367505E+01         XY=  0.34595816E+00         XZ=  0.30634071E+00
                YY=  0.12448333E+01         YZ= -0.10542672E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3568453E-02 Y=  0.3433532E-08 Z=  0.4611448E-02  Total=      0.0058309
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199070E+02         XY= -0.17842266E-01         XZ=  0.72550593E-02
                YY= -0.10161239E+02         YZ=  0.23057237E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64898077E-01 Y=  0.63033513E-11 Z= -0.90296922E-07   Total=     0.06489808
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24712307E+01         XY=  0.61319796E+00         XZ=  0.54297807E+00
                YY=  0.12448341E+01         YZ= -0.85312228E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2113752E-02 Y=  0.3433676E-08 Z=  0.4611410E-02  Total=      0.0050728
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142248E+02         XY=  0.10568758E-01         XZ=  0.32417681E-01
                YY= -0.10161239E+02         YZ=  0.23057047E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68489661E-01 Y=  0.11170515E-10 Z=  0.57005249E-07   Total=     0.06848966
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25391005E+01         XY=  0.64713351E+00         XZ=  0.57302891E+00
                YY=  0.12448344E+01         YZ=  0.53872200E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6991888E-02 Y=  0.3443934E-08 Z=  0.4611615E-02  Total=      0.0083758
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093467E+02         XY=  0.34959439E-01         XZ=  0.54020823E-01
                YY= -0.10161239E+02         YZ=  0.23058072E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46022863E-01 Y=  0.13501960E-10 Z=  0.12646541E-06   Total=     0.04602286
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21145383E+01         XY=  0.43485303E+00         XZ=  0.38505811E+00
                YY=  0.12448338E+01         YZ=  0.11950447E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9209963E-02 Y=  0.3446318E-08 Z=  0.4611781E-02  Total=      0.0103001
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071286E+02         XY=  0.46049811E-01         XZ=  0.63844085E-01
                YY= -0.10161239E+02         YZ=  0.23058902E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60456566E-02 Y=  0.12208492E-10 Z=  0.22124782E-07   Total=     0.00604566
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13590790E+01         XY=  0.57123176E-01         XZ=  0.50582491E-01
                YY=  0.12448331E+01         YZ=  0.20915769E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7924060E-02 Y=  0.3447908E-08 Z=  0.4611679E-02  Total=      0.0091683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084145E+02         XY=  0.39620300E-01         XZ=  0.58149178E-01
                YY= -0.10161239E+02         YZ=  0.23058394E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36231754E-01 Y=  0.78531854E-11 Z= -0.11184548E-06   Total=     0.03623175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56015329E+00         XY= -0.34234046E+00         XZ= -0.30313838E+00
                YY=  0.12448333E+01         YZ= -0.10567142E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3623432E-02 Y=  0.3448774E-08 Z=  0.4611450E-02  Total=      0.0058647
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127151E+02         XY=  0.18117157E-01         XZ=  0.39103368E-01
                YY= -0.10161239E+02         YZ=  0.23057249E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64723987E-01 Y=  0.23691287E-11 Z= -0.89876011E-07   Total=     0.06472399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21728659E-01         XY= -0.61155305E+00         XZ= -0.54152230E+00
                YY=  0.12448341E+01         YZ= -0.84917846E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2055654E-02 Y=  0.3449497E-08 Z=  0.4611409E-02  Total=      0.0050488
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183942E+02         XY= -0.10278271E-01         XZ=  0.13954208E-01
                YY= -0.10161239E+02         YZ=  0.23057045E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68590535E-01 Y= -0.18355330E-11 Z=  0.59049542E-07   Total=     0.06859053
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.51339726E-01         XY= -0.64808663E+00         XZ= -0.57387095E+00
                YY=  0.12448344E+01         YZ=  0.55792920E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6952460E-02 Y=  0.3458671E-08 Z=  0.4611613E-02  Total=      0.0083429
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232910E+02         XY= -0.34762302E-01         XZ= -0.77295258E-02
                YY= -0.10161239E+02         YZ=  0.23058065E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46360273E-01 Y= -0.29690217E-11 Z=  0.13083390E-06   Total=     0.04636027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36875001E+00         XY= -0.43804109E+00         XZ= -0.38787791E+00
                YY=  0.12448338E+01         YZ=  0.12361839E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9203887E-02 Y=  0.3458455E-08 Z=  0.4611782E-02  Total=      0.0102947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255424E+02         XY= -0.46019437E-01         XZ= -0.17698778E-01
                YY= -0.10161239E+02         YZ=  0.23058907E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64911965E-02 Y= -0.64528910E-12 Z=  0.26953577E-07   Total=     0.00649120
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11221668E+01         XY= -0.61332918E-01         XZ= -0.54309036E-01
                YY=  0.12448331E+01         YZ=  0.25467658E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7953328E-02 Y=  0.3458888E-08 Z=  0.4611683E-02  Total=      0.0091936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242919E+02         XY= -0.39766643E-01         XZ= -0.12161352E-01
                YY= -0.10161239E+02         YZ=  0.23058413E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35847614E-01 Y=  0.39788059E-11 Z= -0.11004181E-06   Total=     0.03584761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19222559E+01         XY=  0.33871087E+00         XZ=  0.29992293E+00
                YY=  0.12448333E+01         YZ= -0.10397036E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3676585E-02 Y=  0.3459611E-08 Z=  0.4611453E-02  Total=      0.0058977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200151E+02         XY= -0.18382928E-01         XZ=  0.67764217E-02
                YY= -0.10161239E+02         YZ=  0.23057265E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64547409E-01 Y=  0.87678791E-11 Z= -0.92739448E-07   Total=     0.06454741
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24646040E+01         XY=  0.60988463E+00         XZ=  0.54004378E+00
                YY=  0.12448340E+01         YZ= -0.87617995E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1999161E-02 Y=  0.3460694E-08 Z=  0.4611410E-02  Total=      0.0050261
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143394E+02         XY=  0.99958018E-02         XZ=  0.31910399E-01
                YY= -0.10161239E+02         YZ=  0.23057046E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68688704E-01 Y=  0.11598550E-10 Z=  0.53389617E-07   Total=     0.06868870
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25428619E+01         XY=  0.64901420E+00         XZ=  0.57469394E+00
                YY=  0.12448344E+01         YZ=  0.50456320E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6914445E-02 Y=  0.3471675E-08 Z=  0.4611612E-02  Total=      0.0083112
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094241E+02         XY=  0.34572225E-01         XZ=  0.53678025E-01
                YY= -0.10161239E+02         YZ=  0.23058057E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46695851E-01 Y=  0.11313423E-10 Z=  0.12554227E-06   Total=     0.04669585
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21272559E+01         XY=  0.44121185E+00         XZ=  0.39068862E+00
                YY=  0.12448338E+01         YZ=  0.11863045E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9199140E-02 Y=  0.3473047E-08 Z=  0.4611782E-02  Total=      0.0102904
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071394E+02         XY=  0.45995696E-01         XZ=  0.63796321E-01
                YY= -0.10161239E+02         YZ=  0.23058907E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69365271E-02 Y=  0.82055177E-11 Z=  0.23327702E-07   Total=     0.00693653
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13759139E+01         XY=  0.65540683E-01         XZ=  0.58036123E-01
                YY=  0.12448331E+01         YZ=  0.22049090E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7983983E-02 Y=  0.3473409E-08 Z=  0.4611685E-02  Total=      0.0092202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083546E+02         XY=  0.39919911E-01         XZ=  0.58414727E-01
                YY= -0.10161239E+02         YZ=  0.23058424E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35461931E-01 Y=  0.38247211E-11 Z= -0.11272455E-06   Total=     0.03546193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57470078E+00         XY= -0.33506669E+00         XZ= -0.29669739E+00
                YY=  0.12448332E+01         YZ= -0.10650530E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3731310E-02 Y=  0.3473553E-08 Z=  0.4611455E-02  Total=      0.0059320
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126072E+02         XY=  0.18656549E-01         XZ=  0.39581290E-01
                YY= -0.10161239E+02         YZ=  0.23057274E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64368068E-01 Y=  0.21744297E-12 Z= -0.94719549E-07   Total=     0.06436807
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28454545E-01         XY= -0.60819010E+00         XZ= -0.53854421E+00
                YY=  0.12448340E+01         YZ= -0.89496032E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1940850E-02 Y=  0.3474059E-08 Z=  0.4611408E-02  Total=      0.0050032
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182794E+02         XY= -0.97042500E-02         XZ=  0.14462783E-01
                YY= -0.10161239E+02         YZ=  0.23057040E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68783886E-01 Y= -0.10328089E-11 Z=  0.53526891E-07   Total=     0.06878389
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.54993536E-01         XY= -0.64991353E+00         XZ= -0.57548837E+00
                YY=  0.12448344E+01         YZ=  0.50575540E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6874392E-02 Y=  0.3483956E-08 Z=  0.4611610E-02  Total=      0.0082779
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232129E+02         XY= -0.34371962E-01         XZ= -0.73836321E-02
                YY= -0.10161239E+02         YZ=  0.23058046E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47029284E-01 Y=  0.48547910E-12 Z=  0.12877908E-06   Total=     0.04702928
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35610751E+00         XY= -0.44436234E+00         XZ= -0.39347498E+00
                YY=  0.12448338E+01         YZ=  0.12167985E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9192236E-02 Y=  0.3485545E-08 Z=  0.4611782E-02  Total=      0.0102842
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255308E+02         XY= -0.45961183E-01         XZ= -0.17646972E-01
                YY= -0.10161239E+02         YZ=  0.23058906E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.73812928E-02 Y=  0.38706461E-11 Z=  0.27771900E-07   Total=     0.00738129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11053463E+01         XY= -0.69743109E-01         XZ= -0.61755889E-01
                YY=  0.12448331E+01         YZ=  0.26244741E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8012503E-02 Y=  0.3485545E-08 Z=  0.4611688E-02  Total=      0.0092449
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243511E+02         XY= -0.40062519E-01         XZ= -0.12423154E-01
                YY= -0.10161239E+02         YZ=  0.23058438E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35075112E-01 Y=  0.73805196E-11 Z= -0.11088423E-06   Total=     0.03507511
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19076577E+01         XY=  0.33141178E+00         XZ=  0.29345980E+00
                YY=  0.12448332E+01         YZ= -0.10476338E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3784046E-02 Y=  0.3484317E-08 Z=  0.4611458E-02  Total=      0.0059653
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201226E+02         XY= -0.18920233E-01         XZ=  0.63007905E-02
                YY= -0.10161239E+02         YZ=  0.23057287E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64186427E-01 Y=  0.92752998E-11 Z= -0.97566764E-07   Total=     0.06418643
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24577824E+01         XY=  0.60647384E+00         XZ=  0.53702348E+00
                YY=  0.12448340E+01         YZ= -0.92178633E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1884326E-02 Y=  0.3484317E-08 Z=  0.4611408E-02  Total=      0.0049815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144542E+02         XY=  0.94216288E-02         XZ=  0.31402079E-01
                YY= -0.10161239E+02         YZ=  0.23057037E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68876590E-01 Y=  0.86238902E-11 Z=  0.47563643E-07   Total=     0.06887659
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25464125E+01         XY=  0.65078946E+00         XZ=  0.57626563E+00
                YY=  0.12448343E+01         YZ=  0.44949158E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6835955E-02 Y=  0.3493130E-08 Z=  0.4611607E-02  Total=      0.0082460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095026E+02         XY=  0.34179773E-01         XZ=  0.53330619E-01
                YY= -0.10161239E+02         YZ=  0.23058033E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47361118E-01 Y=  0.56982378E-11 Z=  0.12285489E-06   Total=     0.04736112
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21398276E+01         XY=  0.44749771E+00         XZ=  0.39625424E+00
                YY=  0.12448338E+01         YZ=  0.11608661E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9186883E-02 Y=  0.3493708E-08 Z=  0.4611781E-02  Total=      0.0102795
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071517E+02         XY=  0.45934413E-01         XZ=  0.63742220E-01
                YY= -0.10161239E+02         YZ=  0.23058901E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.78260515E-02 Y=  0.17885101E-11 Z=  0.23395645E-07   Total=     0.00782605
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13927235E+01         XY=  0.73945470E-01         XZ=  0.65477917E-01
                YY=  0.12448331E+01         YZ=  0.22107958E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8042648E-02 Y=  0.3493636E-08 Z=  0.4611689E-02  Total=      0.0092710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082959E+02         XY=  0.40213237E-01         XZ=  0.58674694E-01
                YY= -0.10161239E+02         YZ=  0.23058444E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34686608E-01 Y= -0.14511940E-11 Z= -0.11419529E-06   Total=     0.03468661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58935220E+00         XY= -0.32774095E+00         XZ= -0.29021117E+00
                YY=  0.12448332E+01         YZ= -0.10789934E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3838600E-02 Y=  0.3492697E-08 Z=  0.4611458E-02  Total=      0.0060000
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125000E+02         XY=  0.19192997E-01         XZ=  0.40056552E-01
                YY= -0.10161239E+02         YZ=  0.23057290E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64001968E-01 Y= -0.27972119E-11 Z= -0.99920268E-07   Total=     0.06400197
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35372802E-01         XY= -0.60473096E+00         XZ= -0.53548187E+00
                YY=  0.12448340E+01         YZ= -0.94412520E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1825737E-02 Y=  0.3493130E-08 Z=  0.4611406E-02  Total=      0.0049597
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181643E+02         XY= -0.91286866E-02         XZ=  0.14972632E-01
                YY= -0.10161239E+02         YZ=  0.23057026E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68966348E-01 Y= -0.20080426E-11 Z=  0.47607591E-07   Total=     0.06896635
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.58441560E-01         XY= -0.65163755E+00         XZ= -0.57701560E+00
                YY=  0.12448343E+01         YZ=  0.44981768E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6795238E-02 Y=  0.3502594E-08 Z=  0.4611603E-02  Total=      0.0082123
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231338E+02         XY= -0.33976193E-01         XZ= -0.70330614E-02
                YY= -0.10161239E+02         YZ=  0.23058015E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47690941E-01 Y=  0.11982725E-12 Z=  0.12624889E-06   Total=     0.04769094
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34360399E+00         XY= -0.45061409E+00         XZ= -0.39901134E+00
                YY=  0.12448338E+01         YZ=  0.11928879E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9179147E-02 Y=  0.3503027E-08 Z=  0.4611779E-02  Total=      0.0102725
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255177E+02         XY= -0.45895735E-01         XZ= -0.17588955E-01
                YY= -0.10161239E+02         YZ=  0.23058895E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.82704546E-02 Y=  0.21993768E-11 Z=  0.28166297E-07   Total=     0.00827045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10885436E+01         XY= -0.78144471E-01         XZ= -0.69195535E-01
                YY=  0.12448331E+01         YZ=  0.26615878E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8070451E-02 Y=  0.3503533E-08 Z=  0.4611691E-02  Total=      0.0092952
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244090E+02         XY= -0.40352256E-01         XZ= -0.12679701E-01
                YY= -0.10161239E+02         YZ=  0.23058453E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34296711E-01 Y=  0.29655392E-11 Z= -0.11202827E-06   Total=     0.03429671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18929480E+01         XY=  0.32405695E+00         XZ=  0.28694698E+00
                YY=  0.12448332E+01         YZ= -0.10584820E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3890978E-02 Y=  0.3502522E-08 Z=  0.4611460E-02  Total=      0.0060337
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202295E+02         XY= -0.19454894E-01         XZ=  0.58273109E-02
                YY= -0.10161239E+02         YZ=  0.23057297E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63814937E-01 Y=  0.18977505E-11 Z= -0.10267960E-06   Total=     0.06381494
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24507623E+01         XY=  0.60296377E+00         XZ=  0.53391525E+00
                YY=  0.12448339E+01         YZ= -0.97015944E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1769099E-02 Y=  0.3502377E-08 Z=  0.4611404E-02  Total=      0.0049391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145695E+02         XY=  0.88454943E-02         XZ=  0.30891837E-01
                YY= -0.10161239E+02         YZ=  0.23057018E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69053374E-01 Y= -0.54892811E-12 Z=  0.41288308E-07   Total=     0.06905337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25497532E+01         XY=  0.65245983E+00         XZ=  0.57774473E+00
                YY=  0.12448343E+01         YZ=  0.39011918E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6756282E-02 Y=  0.3511479E-08 Z=  0.4611600E-02  Total=      0.0081801
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095823E+02         XY=  0.33781407E-01         XZ=  0.52977809E-01
                YY= -0.10161239E+02         YZ=  0.23057997E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48018959E-01 Y= -0.32053794E-11 Z=  0.11946421E-06   Total=     0.04801896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21522590E+01         XY=  0.45371341E+00         XZ=  0.40175830E+00
                YY=  0.12448338E+01         YZ=  0.11287519E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9173089E-02 Y=  0.3512780E-08 Z=  0.4611777E-02  Total=      0.0102671
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071655E+02         XY=  0.45865442E-01         XZ=  0.63681169E-01
                YY= -0.10161239E+02         YZ=  0.23058882E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.87147181E-02 Y= -0.47988629E-11 Z=  0.22535830E-07   Total=     0.00871472
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14095168E+01         XY=  0.82342153E-01         XZ=  0.72913283E-01
                YY=  0.12448331E+01         YZ=  0.21289790E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8099997E-02 Y=  0.3513791E-08 Z=  0.4611691E-02  Total=      0.0093208
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082386E+02         XY=  0.40499984E-01         XZ=  0.58928724E-01
                YY= -0.10161239E+02         YZ=  0.23058451E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33905172E-01 Y= -0.45986621E-11 Z= -0.11675534E-06   Total=     0.03390517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60411918E+00         XY= -0.32035745E+00         XZ= -0.28367297E+00
                YY=  0.12448332E+01         YZ= -0.11032113E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3945293E-02 Y=  0.3513502E-08 Z=  0.4611459E-02  Total=      0.0060688
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123933E+02         XY=  0.19726462E-01         XZ=  0.40529095E-01
                YY= -0.10161239E+02         YZ=  0.23057293E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63625034E-01 Y= -0.27746614E-11 Z= -0.10631335E-06   Total=     0.06362503
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42495848E-01         XY= -0.60116945E+00         XZ= -0.53232807E+00
                YY=  0.12448339E+01         YZ= -0.10045336E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1710272E-02 Y=  0.3513719E-08 Z=  0.4611400E-02  Total=      0.0049183
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180488E+02         XY= -0.85513595E-02         XZ=  0.15483996E-01
                YY= -0.10161239E+02         YZ=  0.23056999E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69137305E-01 Y= -0.29128728E-12 Z=  0.40510958E-07   Total=     0.06913731
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.61672134E-01         XY= -0.65325286E+00         XZ= -0.57844591E+00
                YY=  0.12448343E+01         YZ=  0.38277556E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6714909E-02 Y=  0.3522605E-08 Z=  0.4611595E-02  Total=      0.0081460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230535E+02         XY= -0.33574545E-01         XZ= -0.66773096E-02
                YY= -0.10161239E+02         YZ=  0.23057971E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48344743E-01 Y=  0.16024601E-11 Z=  0.12276831E-06   Total=     0.04834474
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33124896E+00         XY= -0.45679162E+00         XZ= -0.40448153E+00
                YY=  0.12448338E+01         YZ=  0.11600103E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9164493E-02 Y=  0.3523616E-08 Z=  0.4611774E-02  Total=      0.0102595
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255031E+02         XY= -0.45822467E-01         XZ= -0.17524031E-01
                YY= -0.10161239E+02         YZ=  0.23058867E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.91583605E-02 Y=  0.20257749E-11 Z=  0.28040617E-07   Total=     0.00915836
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10717646E+01         XY= -0.86533966E-01         XZ= -0.76624508E-01
                YY=  0.12448331E+01         YZ=  0.26496641E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8127028E-02 Y=  0.3523760E-08 Z=  0.4611691E-02  Total=      0.0093443
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244656E+02         XY= -0.40635140E-01         XZ= -0.12930197E-01
                YY= -0.10161239E+02         YZ=  0.23058451E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33512500E-01 Y=  0.92871080E-12 Z= -0.11320461E-06   Total=     0.03351250
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18781285E+01         XY=  0.31664724E+00         XZ=  0.28038543E+00
                YY=  0.12448332E+01         YZ= -0.10696172E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3997241E-02 Y=  0.3522894E-08 Z=  0.4611459E-02  Total=      0.0061027
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203358E+02         XY= -0.19986206E-01         XZ=  0.53567671E-02
                YY= -0.10161239E+02         YZ=  0.23057293E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63432761E-01 Y= -0.87513164E-12 Z= -0.10741110E-06   Total=     0.06343276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24435402E+01         XY=  0.59935273E+00         XZ=  0.53071722E+00
                YY=  0.12448340E+01         YZ= -0.10148918E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1653597E-02 Y=  0.3523038E-08 Z=  0.4611397E-02  Total=      0.0048989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146850E+02         XY=  0.82679832E-02         XZ=  0.30380323E-01
                YY= -0.10161239E+02         YZ=  0.23056984E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69218600E-01 Y= -0.21257893E-11 Z=  0.35766711E-07   Total=     0.06921860
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25528756E+01         XY=  0.65402099E+00         XZ=  0.57912650E+00
                YY=  0.12448344E+01         YZ=  0.33793190E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6675498E-02 Y=  0.3531707E-08 Z=  0.4611590E-02  Total=      0.0081135
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096631E+02         XY=  0.33377487E-01         XZ=  0.52619995E-01
                YY= -0.10161239E+02         YZ=  0.23057946E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48668672E-01 Y= -0.17784228E-11 Z=  0.11728553E-06   Total=     0.04866867
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21645369E+01         XY=  0.45985231E+00         XZ=  0.40719357E+00
                YY=  0.12448338E+01         YZ=  0.11081761E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9157767E-02 Y=  0.3532429E-08 Z=  0.4611770E-02  Total=      0.0102534
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071808E+02         XY=  0.45788831E-01         XZ=  0.63613232E-01
                YY= -0.10161239E+02         YZ=  0.23058849E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.96016549E-02 Y=  0.42583824E-12 Z=  0.23429249E-07   Total=     0.00960165
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14262775E+01         XY=  0.90722491E-01         XZ=  0.80333339E-01
                YY=  0.12448331E+01         YZ=  0.22138135E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8155969E-02 Y=  0.3532863E-08 Z=  0.4611689E-02  Total=      0.0093695
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081826E+02         XY=  0.40779843E-01         XZ=  0.59176500E-01
                YY= -0.10161239E+02         YZ=  0.23058445E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33118545E-01 Y=  0.37775624E-11 Z= -0.11715492E-06   Total=     0.03311855
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61898427E+00         XY= -0.31292490E+00         XZ= -0.27709215E+00
                YY=  0.12448332E+01         YZ= -0.11069185E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4051258E-02 Y=  0.3533007E-08 Z=  0.4611457E-02  Total=      0.0061383
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122873E+02         XY=  0.20256290E-01         XZ=  0.40998232E-01
                YY= -0.10161239E+02         YZ=  0.23057284E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63238094E-01 Y=  0.69115855E-11 Z= -0.11050736E-06   Total=     0.06323809
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49808009E-01         XY= -0.59751339E+00         XZ= -0.52909123E+00
                YY=  0.12448340E+01         YZ= -0.10440819E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1594640E-02 Y=  0.3534380E-08 Z=  0.4611393E-02  Total=      0.0048793
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179332E+02         XY= -0.79732037E-02         XZ=  0.15995885E-01
                YY= -0.10161239E+02         YZ=  0.23056961E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69297352E-01 Y=  0.84748710E-11 Z=  0.35292917E-07   Total=     0.06929735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.64696504E-01         XY= -0.65476509E+00         XZ= -0.57978539E+00
                YY=  0.12448344E+01         YZ=  0.33354401E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6633623E-02 Y=  0.3544638E-08 Z=  0.4611583E-02  Total=      0.0080791
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229722E+02         XY= -0.33168117E-01         XZ= -0.63175465E-02
                YY= -0.10161239E+02         YZ=  0.23057915E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48990947E-01 Y=  0.78237975E-11 Z=  0.12075874E-06   Total=     0.04899095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31903754E+00         XY= -0.46289736E+00         XZ= -0.40988831E+00
                YY=  0.12448339E+01         YZ=  0.11410734E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9148501E-02 Y=  0.3546011E-08 Z=  0.4611766E-02  Total=      0.0102452
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254871E+02         XY= -0.45742505E-01         XZ= -0.17453400E-01
                YY= -0.10161239E+02         YZ=  0.23058829E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10044893E-01 Y=  0.53968242E-11 Z=  0.29183336E-07   Total=     0.01004489
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10550115E+01         XY= -0.94910484E-01         XZ= -0.84041827E-01
                YY=  0.12448331E+01         YZ=  0.27579082E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8182435E-02 Y=  0.3546877E-08 Z=  0.4611688E-02  Total=      0.0093925
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245210E+02         XY= -0.40912179E-01         XZ= -0.13175725E-01
                YY= -0.10161239E+02         YZ=  0.23058440E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32722937E-01 Y=  0.25562233E-11 Z= -0.11301889E-06   Total=     0.03272294
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18632080E+01         XY=  0.30918695E+00         XZ=  0.27377958E+00
                YY=  0.12448332E+01         YZ= -0.10678492E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4102989E-02 Y=  0.3546661E-08 Z=  0.4611456E-02  Total=      0.0061725
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204416E+02         XY= -0.20514948E-01         XZ=  0.48883185E-02
                YY= -0.10161239E+02         YZ=  0.23057280E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63040599E-01 Y=  0.95132840E-12 Z= -0.11048499E-06   Total=     0.06304060
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24361295E+01         XY=  0.59564734E+00         XZ=  0.52743636E+00
                YY=  0.12448340E+01         YZ= -0.10439207E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1537724E-02 Y=  0.3545433E-08 Z=  0.4611389E-02  Total=      0.0048610
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148008E+02         XY=  0.76886162E-02         XZ=  0.29867018E-01
                YY= -0.10161239E+02         YZ=  0.23056942E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69373084E-01 Y=  0.16974555E-11 Z=  0.32275069E-07   Total=     0.06937308
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25557950E+01         XY=  0.65548065E+00         XZ=  0.58041929E+00
                YY=  0.12448344E+01         YZ=  0.30497275E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6593570E-02 Y=  0.3553524E-08 Z=  0.4611578E-02  Total=      0.0080462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097450E+02         XY=  0.32967848E-01         XZ=  0.52257008E-01
                YY= -0.10161239E+02         YZ=  0.23057887E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49311065E-01 Y=  0.47721021E-11 Z=  0.11750160E-06   Total=     0.04931106
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21766764E+01         XY=  0.46592204E+00         XZ=  0.41256855E+00
                YY=  0.12448339E+01         YZ=  0.11102725E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9140942E-02 Y=  0.3555257E-08 Z=  0.4611762E-02  Total=      0.0102384
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071976E+02         XY=  0.45704710E-01         XZ=  0.63538575E-01
                YY= -0.10161239E+02         YZ=  0.23058808E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10487570E-01 Y=  0.89436488E-11 Z=  0.26985309E-07   Total=     0.01048757
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14430189E+01         XY=  0.99093179E-01         XZ=  0.87745748E-01
                YY=  0.12448332E+01         YZ=  0.25505245E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8210637E-02 Y=  0.3558364E-08 Z=  0.4611687E-02  Total=      0.0094171
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081279E+02         XY=  0.41053184E-01         XZ=  0.59418471E-01
                YY= -0.10161239E+02         YZ=  0.23058432E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32326166E-01 Y=  0.12298236E-10 Z= -0.11481489E-06   Total=     0.03232617
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63395810E+00         XY= -0.30543800E+00         XZ= -0.27046246E+00
                YY=  0.12448332E+01         YZ= -0.10847373E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4156607E-02 Y=  0.3560170E-08 Z=  0.4611454E-02  Total=      0.0062083
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121820E+02         XY=  0.20783032E-01         XZ=  0.41464634E-01
                YY= -0.10161239E+02         YZ=  0.23057270E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62840740E-01 Y=  0.13138787E-10 Z= -0.11205924E-06   Total=     0.06284074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57316956E-01         XY= -0.59375894E+00         XZ= -0.52576677E+00
                YY=  0.12448340E+01         YZ= -0.10586933E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1478708E-02 Y=  0.3560820E-08 Z=  0.4611384E-02  Total=      0.0048427
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178173E+02         XY= -0.73935428E-02         XZ=  0.16509120E-01
                YY= -0.10161239E+02         YZ=  0.23056919E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69446234E-01 Y=  0.10836181E-10 Z=  0.32637982E-07   Total=     0.06944623
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.67509888E-01         XY= -0.65617182E+00         XZ= -0.58103127E+00
                YY=  0.12448344E+01         YZ=  0.30847781E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6551233E-02 Y=  0.3570139E-08 Z=  0.4611572E-02  Total=      0.0080116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228898E+02         XY= -0.32756169E-01         XZ= -0.59528805E-02
                YY= -0.10161239E+02         YZ=  0.23057856E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49629456E-01 Y=  0.62119575E-11 Z=  0.12147197E-06   Total=     0.04962946
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30697153E+00         XY= -0.46893040E+00         XZ= -0.41523085E+00
                YY=  0.12448339E+01         YZ=  0.11477985E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9131022E-02 Y=  0.3570861E-08 Z=  0.4611758E-02  Total=      0.0102296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254696E+02         XY= -0.45655110E-01         XZ= -0.17376182E-01
                YY= -0.10161239E+02         YZ=  0.23058788E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10930137E-01 Y=  0.12375576E-11 Z=  0.33440380E-07   Total=     0.01093014
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10382829E+01         XY= -0.10327483E+00         XZ= -0.91448799E-01
                YY=  0.12448332E+01         YZ=  0.31597879E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8236542E-02 Y=  0.3571873E-08 Z=  0.4611686E-02  Total=      0.0094397
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245751E+02         XY= -0.41182714E-01         XZ= -0.13415511E-01
                YY= -0.10161239E+02         YZ=  0.23058427E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31927721E-01 Y= -0.18411460E-11 Z= -0.10939170E-06   Total=     0.03192772
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18481806E+01         XY=  0.30167324E+00         XZ=  0.26712575E+00
                YY=  0.12448332E+01         YZ= -0.10336146E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4208126E-02 Y=  0.3571728E-08 Z=  0.4611454E-02  Total=      0.0062429
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205467E+02         XY= -0.21040630E-01         XZ=  0.44225300E-02
                YY= -0.10161239E+02         YZ=  0.23057267E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62637911E-01 Y= -0.15630920E-11 Z= -0.11019771E-06   Total=     0.06263791
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24285198E+01         XY=  0.59184249E+00         XZ=  0.52406664E+00
                YY=  0.12448340E+01         YZ= -0.10412280E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1421523E-02 Y=  0.3571584E-08 Z=  0.4611381E-02  Total=      0.0048255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149170E+02         XY=  0.71076155E-02         XZ=  0.29352184E-01
                YY= -0.10161239E+02         YZ=  0.23056902E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69516070E-01 Y=  0.20053494E-11 Z=  0.31573754E-07   Total=     0.06951607
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25584971E+01         XY=  0.65683167E+00         XZ=  0.58161508E+00
                YY=  0.12448344E+01         YZ=  0.29834802E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6510475E-02 Y=  0.3579314E-08 Z=  0.4611567E-02  Total=      0.0079783
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098281E+02         XY=  0.32552375E-01         XZ=  0.51888740E-01
                YY= -0.10161239E+02         YZ=  0.23057831E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49945249E-01 Y=  0.72172333E-11 Z=  0.11967448E-06   Total=     0.04994525
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21886608E+01         XY=  0.47191421E+00         XZ=  0.41787416E+00
                YY=  0.12448339E+01         YZ=  0.11308228E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9122520E-02 Y=  0.3579964E-08 Z=  0.4611754E-02  Total=      0.0102220
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072161E+02         XY=  0.45612599E-01         XZ=  0.63456702E-01
                YY= -0.10161239E+02         YZ=  0.23058770E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11371589E-01 Y=  0.11543618E-10 Z=  0.31712188E-07   Total=     0.01137159
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14597245E+01         XY=  0.10744595E+00         XZ=  0.95141816E-01
                YY=  0.12448332E+01         YZ=  0.29973573E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8263842E-02 Y=  0.3581770E-08 Z=  0.4611685E-02  Total=      0.0094635
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080747E+02         XY=  0.41319207E-01         XZ=  0.59653808E-01
                YY= -0.10161239E+02         YZ=  0.23058421E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31528720E-01 Y=  0.12724839E-10 Z= -0.11188223E-06   Total=     0.03152872
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64902766E+00         XY= -0.29790323E+00         XZ= -0.26379055E+00
                YY=  0.12448332E+01         YZ= -0.10570251E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4261136E-02 Y=  0.3582348E-08 Z=  0.4611452E-02  Total=      0.0062788
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120774E+02         XY=  0.21305679E-01         XZ=  0.41927255E-01
                YY= -0.10161239E+02         YZ=  0.23057260E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62433313E-01 Y=  0.98502939E-11 Z= -0.11339070E-06   Total=     0.06243331
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65016259E-01         XY= -0.58990932E+00         XZ= -0.52235786E+00
                YY=  0.12448340E+01         YZ= -0.10713023E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1362686E-02 Y=  0.3582420E-08 Z=  0.4611376E-02  Total=      0.0048085
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177013E+02         XY= -0.68134343E-02         XZ=  0.17022614E-01
                YY= -0.10161239E+02         YZ=  0.23056880E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69583850E-01 Y=  0.38534005E-11 Z=  0.30003739E-07   Total=     0.06958385
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.70110378E-01         XY= -0.65747210E+00         XZ= -0.58218239E+00
                YY=  0.12448344E+01         YZ=  0.28352856E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6467925E-02 Y=  0.3591739E-08 Z=  0.4611561E-02  Total=      0.0079436
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228065E+02         XY= -0.32339625E-01         XZ= -0.55842539E-02
                YY= -0.10161239E+02         YZ=  0.23057801E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50259735E-01 Y= -0.28382436E-11 Z=  0.12216744E-06   Total=     0.05025974
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29506103E+00         XY= -0.47488568E+00         XZ= -0.42050377E+00
                YY=  0.12448339E+01         YZ=  0.11542933E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9112182E-02 Y=  0.3593039E-08 Z=  0.4611750E-02  Total=      0.0102127
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254508E+02         XY= -0.45560913E-01         XZ= -0.17293014E-01
                YY= -0.10161239E+02         YZ=  0.23058750E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11813235E-01 Y= -0.73667812E-11 Z=  0.37745666E-07   Total=     0.01181323
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10215948E+01         XY= -0.11161889E+00         XZ= -0.98836877E-01
                YY=  0.12448332E+01         YZ=  0.35658524E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8289397E-02 Y=  0.3592895E-08 Z=  0.4611684E-02  Total=      0.0094859
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246280E+02         XY= -0.41446988E-01         XZ= -0.13649783E-01
                YY= -0.10161239E+02         YZ=  0.23058417E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31127846E-01 Y= -0.77517675E-11 Z= -0.10567373E-06   Total=     0.03112785
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18330651E+01         XY=  0.29411552E+00         XZ=  0.26043395E+00
                YY=  0.12448332E+01         YZ= -0.99853478E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4312619E-02 Y=  0.3591522E-08 Z=  0.4611452E-02  Total=      0.0063138
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206512E+02         XY= -0.21563096E-01         XZ=  0.39596030E-02
                YY= -0.10161239E+02         YZ=  0.23057258E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62225626E-01 Y= -0.38397396E-11 Z= -0.10988279E-06   Total=     0.06222563
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24207288E+01         XY=  0.58794696E+00         XZ=  0.52061755E+00
                YY=  0.12448340E+01         YZ= -0.10382718E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1305097E-02 Y=  0.3590150E-08 Z=  0.4611374E-02  Total=      0.0047925
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150335E+02         XY=  0.65254823E-02         XZ=  0.28836396E-01
                YY= -0.10161239E+02         YZ=  0.23056866E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69648255E-01 Y=  0.25582671E-11 Z=  0.30814137E-07   Total=     0.06964825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25609951E+01         XY=  0.65808064E+00         XZ=  0.58272124E+00
                YY=  0.12448344E+01         YZ=  0.29117523E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6426360E-02 Y=  0.3598024E-08 Z=  0.4611556E-02  Total=      0.0079098
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099122E+02         XY=  0.32131799E-01         XZ=  0.51516028E-01
                YY= -0.10161239E+02         YZ=  0.23057778E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50571602E-01 Y=  0.84330764E-11 Z=  0.12185738E-06   Total=     0.05057160
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22004972E+01         XY=  0.47783239E+00         XZ=  0.42311474E+00
                YY=  0.12448339E+01         YZ=  0.11514585E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9102666E-02 Y=  0.3598891E-08 Z=  0.4611747E-02  Total=      0.0102043
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072359E+02         XY=  0.45513329E-01         XZ=  0.63368581E-01
                YY= -0.10161239E+02         YZ=  0.23058734E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12253773E-01 Y=  0.10918903E-10 Z=  0.36728945E-07   Total=     0.01225377
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14763953E+01         XY=  0.11578137E+00         XZ=  0.10252273E+00
                YY=  0.12448332E+01         YZ=  0.34713213E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8315746E-02 Y=  0.3600769E-08 Z=  0.4611683E-02  Total=      0.0095089
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080228E+02         XY=  0.41578730E-01         XZ=  0.59883484E-01
                YY= -0.10161239E+02         YZ=  0.23058414E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30726390E-01 Y=  0.86060626E-11 Z= -0.10832621E-06   Total=     0.03072639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66418949E+00         XY= -0.29032231E+00         XZ= -0.25707787E+00
                YY=  0.12448332E+01         YZ= -0.10234600E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4364991E-02 Y=  0.3602431E-08 Z=  0.4611451E-02  Total=      0.0063497
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119736E+02         XY=  0.21824954E-01         XZ=  0.42386979E-01
                YY= -0.10161239E+02         YZ=  0.23057254E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62016140E-01 Y=  0.22232199E-11 Z= -0.11392619E-06   Total=     0.06201614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72899718E-01         XY= -0.58596760E+00         XZ= -0.51886777E+00
                YY=  0.12448340E+01         YZ= -0.10764256E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1246458E-02 Y=  0.3602792E-08 Z=  0.4611370E-02  Total=      0.0047769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175850E+02         XY= -0.62322921E-02         XZ=  0.17537096E-01
                YY= -0.10161239E+02         YZ=  0.23056847E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69710591E-01 Y= -0.56425179E-11 Z=  0.28132497E-07   Total=     0.06971059
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.72505374E-01         XY= -0.65866963E+00         XZ= -0.58324307E+00
                YY=  0.12448344E+01         YZ=  0.26576853E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6383610E-02 Y=  0.3610522E-08 Z=  0.4611550E-02  Total=      0.0078751
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227222E+02         XY= -0.31918051E-01         XZ= -0.52111238E-02
                YY= -0.10161239E+02         YZ=  0.23057750E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50882199E-01 Y= -0.11677599E-10 Z=  0.12352764E-06   Total=     0.05088220
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28329820E+00         XY= -0.48076711E+00         XZ= -0.42571193E+00
                YY=  0.12448339E+01         YZ=  0.11670715E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9091929E-02 Y=  0.3610160E-08 Z=  0.4611743E-02  Total=      0.0101947
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254305E+02         XY= -0.45459645E-01         XZ= -0.17203560E-01
                YY= -0.10161239E+02         YZ=  0.23058716E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12694624E-01 Y= -0.13326353E-10 Z=  0.42674444E-07   Total=     0.01269462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10049389E+01         XY= -0.11994681E+00         XZ= -0.10621127E+00
                YY=  0.12448332E+01         YZ=  0.40310583E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8340982E-02 Y=  0.3609077E-08 Z=  0.4611683E-02  Total=      0.0095310
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246796E+02         XY= -0.41704910E-01         XZ= -0.13878427E-01
                YY= -0.10161239E+02         YZ=  0.23058412E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30322839E-01 Y= -0.99581525E-11 Z= -0.10136298E-06   Total=     0.03032284
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18178527E+01         XY=  0.28650931E+00         XZ=  0.25369870E+00
                YY=  0.12448332E+01         YZ= -0.95782220E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4416489E-02 Y=  0.3608354E-08 Z=  0.4611451E-02  Total=      0.0063852
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207551E+02         XY= -0.22082446E-01         XZ=  0.34994212E-02
                YY= -0.10161239E+02         YZ=  0.23057255E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61803241E-01 Y= -0.31812103E-11 Z= -0.10912089E-06   Total=     0.06180324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24127469E+01         XY=  0.58395600E+00         XZ=  0.51708362E+00
                YY=  0.12448339E+01         YZ= -0.10310670E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1188383E-02 Y=  0.3607776E-08 Z=  0.4611368E-02  Total=      0.0047620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151502E+02         XY=  0.59419121E-02         XZ=  0.28319315E-01
                YY= -0.10161239E+02         YZ=  0.23056836E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69769152E-01 Y=  0.38490561E-11 Z=  0.30229270E-07   Total=     0.06976915
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25632798E+01         XY=  0.65922295E+00         XZ=  0.58373284E+00
                YY=  0.12448344E+01         YZ=  0.28565999E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6341127E-02 Y=  0.3615217E-08 Z=  0.4611546E-02  Total=      0.0078407
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099975E+02         XY=  0.31705635E-01         XZ=  0.51138347E-01
                YY= -0.10161239E+02         YZ=  0.23057730E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51189747E-01 Y=  0.78277466E-11 Z=  0.12395091E-06   Total=     0.05118975
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22121785E+01         XY=  0.48367301E+00         XZ=  0.42828674E+00
                YY=  0.12448339E+01         YZ=  0.11712342E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9081260E-02 Y=  0.3617240E-08 Z=  0.4611741E-02  Total=      0.0101852
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072573E+02         XY=  0.45406297E-01         XZ=  0.63273573E-01
                YY= -0.10161239E+02         YZ=  0.23058704E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13133960E-01 Y=  0.67783095E-11 Z=  0.41516391E-07   Total=     0.01313396
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14930284E+01         XY=  0.12409794E+00         XZ=  0.10988724E+00
                YY=  0.12448332E+01         YZ=  0.39233185E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8366226E-02 Y=  0.3617529E-08 Z=  0.4611683E-02  Total=      0.0095531
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079724E+02         XY=  0.41831129E-01         XZ=  0.60106856E-01
                YY= -0.10161239E+02         YZ=  0.23058413E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29919041E-01 Y=  0.94536643E-12 Z= -0.10504952E-06   Total=     0.02991904
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67944615E+00         XY= -0.28269397E+00         XZ= -0.25032272E+00
                YY=  0.12448332E+01         YZ= -0.99256442E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4468068E-02 Y=  0.3616373E-08 Z=  0.4611451E-02  Total=      0.0064210
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118705E+02         XY=  0.22340337E-01         XZ=  0.42843286E-01
                YY= -0.10161239E+02         YZ=  0.23057254E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61588773E-01 Y= -0.72999251E-11 Z= -0.11481655E-06   Total=     0.06158877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80975793E-01         XY= -0.58192957E+00         XZ= -0.51529179E+00
                YY=  0.12448339E+01         YZ= -0.10849188E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1130083E-02 Y=  0.3615073E-08 Z=  0.4611364E-02  Total=      0.0047478
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174687E+02         XY= -0.56504153E-02         XZ=  0.18052283E-01
                YY= -0.10161239E+02         YZ=  0.23056820E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69825762E-01 Y= -0.14505747E-10 Z=  0.25763673E-07   Total=     0.06982576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.74681761E-01         XY= -0.65975784E+00         XZ= -0.58420632E+00
                YY=  0.12448344E+01         YZ=  0.24331142E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6298291E-02 Y=  0.3621719E-08 Z=  0.4611541E-02  Total=      0.0078061
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226369E+02         XY= -0.31491455E-01         XZ= -0.48334650E-02
                YY= -0.10161239E+02         YZ=  0.23057704E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51496044E-01 Y= -0.17668048E-10 Z=  0.12423416E-06   Total=     0.05149604
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27169824E+00         XY= -0.48656710E+00         XZ= -0.43084738E+00
                YY=  0.12448339E+01         YZ=  0.11736963E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9070201E-02 Y=  0.3621791E-08 Z=  0.4611738E-02  Total=      0.0101753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254088E+02         XY= -0.45351008E-01         XZ= -0.17107475E-01
                YY= -0.10161239E+02         YZ=  0.23058686E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13573557E-01 Y= -0.15559142E-10 Z=  0.46806654E-07   Total=     0.01357356
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98832948E+00         XY= -0.12825153E+00         XZ= -0.11356464E+00
                YY=  0.12448332E+01         YZ=  0.44213009E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8391185E-02 Y=  0.3621719E-08 Z=  0.4611683E-02  Total=      0.0095749
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247298E+02         XY= -0.41955927E-01         XZ= -0.14100835E-01
                YY= -0.10161239E+02         YZ=  0.23058412E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29513240E-01 Y= -0.92641765E-11 Z= -0.98040882E-07   Total=     0.02951324
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18025535E+01         XY=  0.27885971E+00         XZ=  0.24692535E+00
                YY=  0.12448331E+01         YZ= -0.92642803E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4519594E-02 Y=  0.3620202E-08 Z=  0.4611452E-02  Total=      0.0064570
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208582E+02         XY= -0.22597974E-01         XZ=  0.30427573E-02
                YY= -0.10161239E+02         YZ=  0.23057257E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61370999E-01 Y= -0.16873327E-11 Z= -0.10962812E-06   Total=     0.06137100
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24045787E+01         XY=  0.57987190E+00         XZ=  0.51346735E+00
                YY=  0.12448339E+01         YZ= -0.10358482E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1071530E-02 Y=  0.3617601E-08 Z=  0.4611363E-02  Total=      0.0047342
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152670E+02         XY=  0.53576502E-02         XZ=  0.27801755E-01
                YY= -0.10161239E+02         YZ=  0.23056811E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69878701E-01 Y=  0.37451561E-11 Z=  0.28120190E-07   Total=     0.06987870
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25653500E+01         XY=  0.66025804E+00         XZ=  0.58464944E+00
                YY=  0.12448344E+01         YZ=  0.26573007E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6254912E-02 Y=  0.3624609E-08 Z=  0.4611538E-02  Total=      0.0077711
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100837E+02         XY=  0.31274558E-01         XZ=  0.50756442E-01
                YY= -0.10161239E+02         YZ=  0.23057687E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51799382E-01 Y=  0.46043313E-11 Z=  0.12448921E-06   Total=     0.05179938
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22236989E+01         XY=  0.48943323E+00         XZ=  0.43338730E+00
                YY=  0.12448339E+01         YZ=  0.11762923E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9058406E-02 Y=  0.3625403E-08 Z=  0.4611736E-02  Total=      0.0101648
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072802E+02         XY=  0.45292030E-01         XZ=  0.63172273E-01
                YY= -0.10161239E+02         YZ=  0.23058676E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14011712E-01 Y=  0.52190626E-12 Z=  0.44999897E-07   Total=     0.01401171
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15096155E+01         XY=  0.13239149E+00         XZ=  0.11723100E+00
                YY=  0.12448332E+01         YZ=  0.42519285E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8415352E-02 Y=  0.3625620E-08 Z=  0.4611683E-02  Total=      0.0095961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079232E+02         XY=  0.42076757E-01         XZ=  0.60324330E-01
                YY= -0.10161239E+02         YZ=  0.23058414E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29107144E-01 Y= -0.66709982E-11 Z= -0.10273310E-06   Total=     0.02910714
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69478873E+00         XY= -0.27502266E+00         XZ= -0.24353000E+00
                YY=  0.12448331E+01         YZ= -0.97074197E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4570403E-02 Y=  0.3624970E-08 Z=  0.4611452E-02  Total=      0.0064926
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117682E+02         XY=  0.22852011E-01         XZ=  0.43296387E-01
                YY= -0.10161239E+02         YZ=  0.23057258E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61151641E-01 Y= -0.13778932E-10 Z= -0.11650189E-06   Total=     0.06115164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89236382E-01         XY= -0.57779927E+00         XZ= -0.51163461E+00
                YY=  0.12448339E+01         YZ= -0.11008976E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1013554E-02 Y=  0.3623886E-08 Z=  0.4611360E-02  Total=      0.0047214
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173521E+02         XY= -0.50677703E-02         XZ=  0.18568211E-01
                YY= -0.10161239E+02         YZ=  0.23056797E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69929716E-01 Y= -0.17669531E-10 Z=  0.22500480E-07   Total=     0.06992972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.76646175E-01         XY= -0.66074006E+00         XZ= -0.58507618E+00
                YY=  0.12448343E+01         YZ=  0.21245217E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6211983E-02 Y=  0.3630460E-08 Z=  0.4611533E-02  Total=      0.0077366
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225506E+02         XY= -0.31059916E-01         XZ= -0.44513888E-02
                YY= -0.10161239E+02         YZ=  0.23057662E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52101541E-01 Y= -0.16650470E-10 Z=  0.12384252E-06   Total=     0.05210154
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26025601E+00         XY= -0.49228822E+00         XZ= -0.43591338E+00
                YY=  0.12448339E+01         YZ=  0.11700045E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9047033E-02 Y=  0.3629954E-08 Z=  0.4611732E-02  Total=      0.0101546
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253856E+02         XY= -0.45235167E-01         XZ= -0.17004986E-01
                YY= -0.10161239E+02         YZ=  0.23058659E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14450239E-01 Y= -0.11185642E-10 Z=  0.49745021E-07   Total=     0.01445024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97176255E+00         XY= -0.13653497E+00         XZ= -0.12089943E+00
                YY=  0.12448331E+01         YZ=  0.46993059E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8440053E-02 Y=  0.3630243E-08 Z=  0.4611683E-02  Total=      0.0096178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247787E+02         XY= -0.42200267E-01         XZ= -0.14317313E-01
                YY= -0.10161239E+02         YZ=  0.23058413E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28698908E-01 Y= -0.36442686E-11 Z= -0.95840756E-07   Total=     0.02869891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17871648E+01         XY=  0.27116538E+00         XZ=  0.24011229E+00
                YY=  0.12448331E+01         YZ= -0.90559230E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4621988E-02 Y=  0.3629160E-08 Z=  0.4611453E-02  Total=      0.0065290
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209606E+02         XY= -0.23109944E-01         XZ=  0.25892598E-02
                YY= -0.10161239E+02         YZ=  0.23057262E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60928837E-01 Y=  0.27869096E-11 Z= -0.11110659E-06   Total=     0.06092884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23962231E+01         XY=  0.57569407E+00         XZ=  0.50976815E+00
                YY=  0.12448338E+01         YZ= -0.10497796E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9544860E-03 Y=  0.3627932E-08 Z=  0.4611358E-02  Total=      0.0047091
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153841E+02         XY=  0.47724283E-02         XZ=  0.27283365E-01
                YY= -0.10161239E+02         YZ=  0.23056789E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69976946E-01 Y=  0.55248414E-11 Z=  0.25180473E-07   Total=     0.06997695
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25672066E+01         XY=  0.66118632E+00         XZ=  0.58547166E+00
                YY=  0.12448343E+01         YZ=  0.23796953E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6167669E-02 Y=  0.3635589E-08 Z=  0.4611529E-02  Total=      0.0077011
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101709E+02         XY=  0.30838341E-01         XZ=  0.50370016E-01
                YY= -0.10161239E+02         YZ=  0.23057645E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52400683E-01 Y=  0.37066415E-11 Z=  0.12430598E-06   Total=     0.05240068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22350619E+01         XY=  0.49511470E+00         XZ=  0.43841847E+00
                YY=  0.12448339E+01         YZ=  0.11745546E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9034081E-02 Y=  0.3635517E-08 Z=  0.4611730E-02  Total=      0.0101431
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073045E+02         XY=  0.45170402E-01         XZ=  0.63064498E-01
                YY= -0.10161239E+02         YZ=  0.23058649E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14887343E-01 Y= -0.14887366E-11 Z=  0.47815647E-07   Total=     0.01488734
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15261625E+01         XY=  0.14066501E+00         XZ=  0.12455742E+00
                YY=  0.12448331E+01         YZ=  0.45178225E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8463128E-02 Y=  0.3635806E-08 Z=  0.4611684E-02  Total=      0.0096381
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078755E+02         XY=  0.42315636E-01         XZ=  0.60535888E-01
                YY= -0.10161239E+02         YZ=  0.23058416E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28290272E-01 Y= -0.74361496E-11 Z= -0.10115481E-06   Total=     0.02829027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71022535E+00         XY= -0.26730433E+00         XZ= -0.23669523E+00
                YY=  0.12448331E+01         YZ= -0.95583433E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4672037E-02 Y=  0.3635156E-08 Z=  0.4611453E-02  Total=      0.0065646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116665E+02         XY=  0.23360181E-01         XZ=  0.43746463E-01
                YY= -0.10161239E+02         YZ=  0.23057263E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60704260E-01 Y= -0.11283733E-10 Z= -0.11913308E-06   Total=     0.06070426
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97690652E-01         XY= -0.57357213E+00         XZ= -0.50789135E+00
                YY=  0.12448338E+01         YZ= -0.11257366E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8967906E-03 Y=  0.3634217E-08 Z=  0.4611355E-02  Total=      0.0046977
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172354E+02         XY= -0.44839551E-02         XZ=  0.19085266E-01
                YY= -0.10161239E+02         YZ=  0.23056775E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70021992E-01 Y= -0.11231187E-10 Z=  0.18099068E-07   Total=     0.07002199
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.78389903E-01         XY= -0.66161194E+00         XZ= -0.58584810E+00
                YY=  0.12448343E+01         YZ=  0.17091983E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6124572E-02 Y=  0.3642524E-08 Z=  0.4611524E-02  Total=      0.0076666
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224632E+02         XY= -0.30622863E-01         XZ= -0.40643297E-02
                YY= -0.10161239E+02         YZ=  0.23057620E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52698334E-01 Y= -0.72901728E-11 Z=  0.12237032E-06   Total=     0.05269833
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24897829E+00         XY= -0.49792709E+00         XZ= -0.44090645E+00
                YY=  0.12448339E+01         YZ=  0.11561734E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9022286E-02 Y=  0.3644547E-08 Z=  0.4611727E-02  Total=      0.0101326
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253609E+02         XY= -0.45111430E-01         XZ= -0.16895404E-01
                YY= -0.10161239E+02         YZ=  0.23058631E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15324472E-01 Y= -0.12041562E-11 Z=  0.51989423E-07   Total=     0.01532447
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95524193E+00         XY= -0.14479527E+00         XZ= -0.12821376E+00
                YY=  0.12448331E+01         YZ=  0.49122131E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8487437E-02 Y=  0.3647003E-08 Z=  0.4611683E-02  Total=      0.0096594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248260E+02         XY= -0.42437185E-01         XZ= -0.14527122E-01
                YY= -0.10161239E+02         YZ=  0.23058414E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27879861E-01 Y=  0.44059777E-11 Z= -0.93808825E-07   Total=     0.02787986
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17716870E+01         XY=  0.26342651E+00         XZ=  0.23325964E+00
                YY=  0.12448331E+01         YZ= -0.88632557E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4723526E-02 Y=  0.3647148E-08 Z=  0.4611454E-02  Total=      0.0066013
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210621E+02         XY= -0.23617631E-01         XZ=  0.21396429E-02
                YY= -0.10161239E+02         YZ=  0.23057266E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60476609E-01 Y=  0.72533847E-11 Z= -0.11237250E-06   Total=     0.06047661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23876772E+01         XY=  0.57142115E+00         XZ=  0.50598449E+00
                YY=  0.12448338E+01         YZ= -0.10617032E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8373786E-03 Y=  0.3646064E-08 Z=  0.4611354E-02  Total=      0.0046868
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155012E+02         XY=  0.41868911E-02         XZ=  0.26764772E-01
                YY= -0.10161239E+02         YZ=  0.23056767E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70063623E-01 Y=  0.63886444E-11 Z=  0.22585915E-07   Total=     0.07006362
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25688446E+01         XY=  0.66200530E+00         XZ=  0.58619682E+00
                YY=  0.12448343E+01         YZ=  0.21346151E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6079502E-02 Y=  0.3652782E-08 Z=  0.4611521E-02  Total=      0.0076306
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102591E+02         XY=  0.30397509E-01         XZ=  0.49979567E-01
                YY= -0.10161239E+02         YZ=  0.23057604E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52993333E-01 Y=  0.25473670E-11 Z=  0.12449146E-06   Total=     0.05299333
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22462613E+01         XY=  0.50071443E+00         XZ=  0.44337698E+00
                YY=  0.12448339E+01         YZ=  0.11762968E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9008361E-02 Y=  0.3652566E-08 Z=  0.4611725E-02  Total=      0.0101202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073302E+02         XY=  0.45041802E-01         XZ=  0.62950600E-01
                YY= -0.10161239E+02         YZ=  0.23058623E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15760541E-01 Y= -0.22873661E-11 Z=  0.51092894E-07   Total=     0.01576054
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15426635E+01         XY=  0.14891553E+00         XZ=  0.13186326E+00
                YY=  0.12448331E+01         YZ=  0.48274004E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8509606E-02 Y=  0.3652132E-08 Z=  0.4611684E-02  Total=      0.0096789
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078290E+02         XY=  0.42548029E-01         XZ=  0.60741745E-01
                YY= -0.10161239E+02         YZ=  0.23058418E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27468680E-01 Y= -0.58688602E-11 Z= -0.98936779E-07   Total=     0.02746868
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72575114E+00         XY= -0.25954141E+00         XZ= -0.22982111E+00
                YY=  0.12448330E+01         YZ= -0.93486529E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4773003E-02 Y=  0.3651193E-08 Z=  0.4611454E-02  Total=      0.0066368
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115656E+02         XY=  0.23865012E-01         XZ=  0.44193623E-01
                YY= -0.10161239E+02         YZ=  0.23057269E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60246797E-01 Y= -0.67340214E-11 Z= -0.12097611E-06   Total=     0.06024680
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10633545E+00         XY= -0.56924973E+00         XZ= -0.50406374E+00
                YY=  0.12448338E+01         YZ= -0.11431143E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7797724E-03 Y=  0.3649893E-08 Z=  0.4611351E-02  Total=      0.0046768
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171184E+02         XY= -0.38988640E-02         XZ=  0.19603493E-01
                YY= -0.10161239E+02         YZ=  0.23056754E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70102647E-01 Y= -0.48241029E-11 Z=  0.14534133E-07   Total=     0.07010265
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.79914027E-01         XY= -0.66237402E+00         XZ= -0.58652271E+00
                YY=  0.12448343E+01         YZ=  0.13728770E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6036040E-02 Y=  0.3656467E-08 Z=  0.4611516E-02  Total=      0.0075960
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223746E+02         XY= -0.30180202E-01         XZ= -0.36722574E-02
                YY= -0.10161239E+02         YZ=  0.23057579E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53286365E-01 Y= -0.14103484E-11 Z=  0.12172886E-06   Total=     0.05328636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23786613E+00         XY= -0.50348318E+00         XZ= -0.44582605E+00
                YY=  0.12448339E+01         YZ=  0.11501595E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8995934E-02 Y=  0.3656394E-08 Z=  0.4611721E-02  Total=      0.0101091
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253345E+02         XY= -0.44979674E-01         XZ= -0.16778666E-01
                YY= -0.10161239E+02         YZ=  0.23058604E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16196097E-01 Y=  0.16036259E-11 Z=  0.55067407E-07   Total=     0.01619610
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93877058E+00         XY= -0.15303094E+00         XZ= -0.13550606E+00
                YY=  0.12448331E+01         YZ=  0.52032510E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8533298E-02 Y=  0.3657117E-08 Z=  0.4611684E-02  Total=      0.0096997
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248719E+02         XY= -0.42666493E-01         XZ= -0.14730129E-01
                YY= -0.10161239E+02         YZ=  0.23058417E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27056330E-01 Y=  0.26362839E-11 Z= -0.90941145E-07   Total=     0.02705633
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17561245E+01         XY=  0.25564527E+00         XZ=  0.22636968E+00
                YY=  0.12448330E+01         YZ= -0.85924740E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4824152E-02 Y=  0.3656539E-08 Z=  0.4611455E-02  Total=      0.0066737
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211627E+02         XY= -0.24120760E-01         XZ=  0.16941315E-02
                YY= -0.10161239E+02         YZ=  0.23057273E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60014575E-01 Y=  0.11684244E-11 Z= -0.11281532E-06   Total=     0.06001457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23789460E+01         XY=  0.56705555E+00         XZ=  0.50211895E+00
                YY=  0.12448337E+01         YZ= -0.10659411E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7202801E-03 Y=  0.3656611E-08 Z=  0.4611350E-02  Total=      0.0046673
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156183E+02         XY=  0.36013986E-02         XZ=  0.26246293E-01
                YY= -0.10161239E+02         YZ=  0.23056748E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70138961E-01 Y= -0.20779165E-11 Z=  0.20879465E-07   Total=     0.07013896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25702683E+01         XY=  0.66271714E+00         XZ=  0.58682721E+00
                YY=  0.12448343E+01         YZ=  0.19726400E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5990498E-02 Y=  0.3663041E-08 Z=  0.4611513E-02  Total=      0.0075599
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103481E+02         XY=  0.29952486E-01         XZ=  0.49585478E-01
                YY= -0.10161239E+02         YZ=  0.23057565E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53577470E-01 Y= -0.55806772E-11 Z=  0.12586213E-06   Total=     0.05357747
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22572999E+01         XY=  0.50623372E+00         XZ=  0.44826428E+00
                YY=  0.12448339E+01         YZ=  0.11891767E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8981335E-02 Y=  0.3661957E-08 Z=  0.4611720E-02  Total=      0.0100962
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073573E+02         XY=  0.44906673E-01         XZ=  0.62830990E-01
                YY= -0.10161239E+02         YZ=  0.23058598E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16631316E-01 Y= -0.78294821E-11 Z=  0.56114475E-07   Total=     0.01663132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15591188E+01         XY=  0.15714316E+00         XZ=  0.13914875E+00
                YY=  0.12448331E+01         YZ=  0.53013772E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8554870E-02 Y=  0.3661885E-08 Z=  0.4611685E-02  Total=      0.0097187
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077837E+02         XY=  0.42774347E-01         XZ=  0.60942287E-01
                YY= -0.10161239E+02         YZ=  0.23058424E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26642502E-01 Y= -0.80873975E-11 Z= -0.94336032E-07   Total=     0.02664250
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74136361E+00         XY= -0.25173516E+00         XZ= -0.22290877E+00
                YY=  0.12448330E+01         YZ= -0.89141589E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4873368E-02 Y=  0.3662029E-08 Z=  0.4611457E-02  Total=      0.0067093
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114652E+02         XY=  0.24366838E-01         XZ=  0.44638178E-01
                YY= -0.10161239E+02         YZ=  0.23057281E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59779501E-01 Y= -0.67194996E-11 Z= -0.11996159E-06   Total=     0.05977950
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11516605E+00         XY= -0.56483443E+00         XZ= -0.50015406E+00
                YY=  0.12448337E+01         YZ= -0.11335310E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6624544E-03 Y=  0.3662752E-08 Z=  0.4611348E-02  Total=      0.0046587
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170010E+02         XY= -0.33122739E-02         XZ=  0.20123096E-01
                YY= -0.10161239E+02         YZ=  0.23056740E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70171991E-01 Y= -0.49376479E-11 Z=  0.14065795E-07   Total=     0.07017199
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81224417E-01         XY= -0.66302922E+00         XZ= -0.58710290E+00
                YY=  0.12448342E+01         YZ=  0.13285926E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5946364E-02 Y=  0.3671276E-08 Z=  0.4611509E-02  Total=      0.0075250
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222850E+02         XY= -0.29731824E-01         XZ= -0.32750842E-02
                YY= -0.10161239E+02         YZ=  0.23057545E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53865936E-01 Y= -0.41105128E-11 Z=  0.12431899E-06   Total=     0.05386594
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22691383E+00         XY= -0.50895933E+00         XZ= -0.45067507E+00
                YY=  0.12448338E+01         YZ=  0.11746079E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8967976E-02 Y=  0.3673010E-08 Z=  0.4611718E-02  Total=      0.0100843
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253066E+02         XY= -0.44839884E-01         XZ= -0.16654783E-01
                YY= -0.10161239E+02         YZ=  0.23058586E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17065350E-01 Y= -0.50077032E-11 Z=  0.61548006E-07   Total=     0.01706535
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92234406E+00         XY= -0.16124419E+00         XZ= -0.14277869E+00
                YY=  0.12448331E+01         YZ=  0.58150055E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8577647E-02 Y=  0.3673516E-08 Z=  0.4611686E-02  Total=      0.0097388
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249162E+02         XY= -0.42888236E-01         XZ= -0.14926413E-01
                YY= -0.10161239E+02         YZ=  0.23058429E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26228173E-01 Y= -0.73755493E-11 Z= -0.84487292E-07   Total=     0.02622817
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17404745E+01         XY=  0.24782032E+00         XZ=  0.21944090E+00
                YY=  0.12448330E+01         YZ= -0.79835292E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4923880E-02 Y=  0.3671637E-08 Z=  0.4611459E-02  Total=      0.0067461
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212625E+02         XY= -0.24619401E-01         XZ=  0.12526169E-02
                YY= -0.10161239E+02         YZ=  0.23057292E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59542671E-01 Y= -0.10065895E-10 Z= -0.10960381E-06   Total=     0.05954267
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23700283E+01         XY=  0.56259671E+00         XZ=  0.49817081E+00
                YY=  0.12448337E+01         YZ= -0.10356922E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6031763E-03 Y=  0.3668820E-08 Z=  0.4611349E-02  Total=      0.0046506
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157354E+02         XY=  0.30158793E-02         XZ=  0.25727811E-01
                YY= -0.10161239E+02         YZ=  0.23056743E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70202935E-01 Y= -0.11654027E-10 Z=  0.22736222E-07   Total=     0.07020293
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25714773E+01         XY=  0.66332160E+00         XZ=  0.58736256E+00
                YY=  0.12448342E+01         YZ=  0.21472653E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5900640E-02 Y=  0.3673732E-08 Z=  0.4611509E-02  Total=      0.0074889
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104380E+02         XY=  0.29503197E-01         XZ=  0.49187635E-01
                YY= -0.10161239E+02         YZ=  0.23057541E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54153059E-01 Y= -0.11222408E-10 Z=  0.13064188E-06   Total=     0.05415306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22681770E+01         XY=  0.51167225E+00         XZ=  0.45308018E+00
                YY=  0.12448338E+01         YZ=  0.12342908E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8952985E-02 Y=  0.3671998E-08 Z=  0.4611718E-02  Total=      0.0100709
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073856E+02         XY=  0.44764923E-01         XZ=  0.62705544E-01
                YY= -0.10161239E+02         YZ=  0.23058589E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17499590E-01 Y= -0.88991533E-11 Z=  0.64421110E-07   Total=     0.01749959
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15755268E+01         XY=  0.16534716E+00         XZ=  0.14641348E+00
                YY=  0.12448331E+01         YZ=  0.60861480E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8598892E-02 Y=  0.3671348E-08 Z=  0.4611690E-02  Total=      0.0097575
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077397E+02         XY=  0.42994459E-01         XZ=  0.61137367E-01
                YY= -0.10161239E+02         YZ=  0.23058446E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25811850E-01 Y= -0.58582753E-11 Z= -0.86589095E-07   Total=     0.02581185
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75706062E+00         XY= -0.24388664E+00         XZ= -0.21595880E+00
                YY=  0.12448329E+01         YZ= -0.81819928E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4973096E-02 Y=  0.3671421E-08 Z=  0.4611462E-02  Total=      0.0067821
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113655E+02         XY=  0.24865476E-01         XZ=  0.45079951E-01
                YY= -0.10161239E+02         YZ=  0.23057310E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59302483E-01 Y= -0.37568602E-11 Z= -0.11607505E-06   Total=     0.05930248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12418039E+00         XY= -0.56032726E+00         XZ= -0.49616287E+00
                YY=  0.12448336E+01         YZ= -0.10967835E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5448811E-03 Y=  0.3671998E-08 Z=  0.4611350E-02  Total=      0.0046434
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168835E+02         XY= -0.27244075E-02         XZ=  0.20643875E-01
                YY= -0.10161239E+02         YZ=  0.23056746E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70230080E-01 Y= -0.38816309E-11 Z=  0.16034935E-07   Total=     0.07023008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82322112E-01         XY= -0.66357809E+00         XZ= -0.58758880E+00
                YY=  0.12448342E+01         YZ=  0.15147411E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5855593E-02 Y=  0.3679873E-08 Z=  0.4611507E-02  Total=      0.0074535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221942E+02         XY= -0.29277966E-01         XZ= -0.28730109E-02
                YY= -0.10161239E+02         YZ=  0.23057532E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54437016E-01 Y= -0.64328995E-11 Z=  0.12886460E-06   Total=     0.05443702
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21612202E+00         XY= -0.51435526E+00         XZ= -0.45545300E+00
                YY=  0.12448338E+01         YZ=  0.12175387E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8938455E-02 Y=  0.3680234E-08 Z=  0.4611718E-02  Total=      0.0100580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252771E+02         XY= -0.44692276E-01         XZ= -0.16523932E-01
                YY= -0.10161239E+02         YZ=  0.23058587E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17932120E-01 Y= -0.10326148E-10 Z=  0.69568596E-07   Total=     0.01793212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90596447E+00         XY= -0.16943398E+00         XZ= -0.15003057E+00
                YY=  0.12448331E+01         YZ=  0.65724022E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8620517E-02 Y=  0.3679728E-08 Z=  0.4611693E-02  Total=      0.0097766
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249591E+02         XY= -0.43102589E-01         XZ= -0.15116110E-01
                YY= -0.10161239E+02         YZ=  0.23058461E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25395520E-01 Y= -0.13643849E-10 Z= -0.76843129E-07   Total=     0.02539552
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17247397E+01         XY=  0.23995289E+00         XZ=  0.21247440E+00
                YY=  0.12448329E+01         YZ= -0.72617774E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5022739E-02 Y=  0.3676911E-08 Z=  0.4611467E-02  Total=      0.0068186
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213613E+02         XY= -0.25113696E-01         XZ=  0.81498586E-03
                YY= -0.10161239E+02         YZ=  0.23057332E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59060961E-01 Y= -0.14547946E-10 Z= -0.10553310E-06   Total=     0.05906096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23609253E+01         XY=  0.55804521E+00         XZ=  0.49414042E+00
                YY=  0.12448336E+01         YZ= -0.99726613E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4860364E-03 Y=  0.3673877E-08 Z=  0.4611352E-02  Total=      0.0046369
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158525E+02         XY=  0.24301798E-02         XZ=  0.25209195E-01
                YY= -0.10161239E+02         YZ=  0.23056759E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70255460E-01 Y= -0.12221089E-10 Z=  0.25184346E-07   Total=     0.07025546
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25724699E+01         XY=  0.66381789E+00         XZ=  0.58780185E+00
                YY=  0.12448342E+01         YZ=  0.23785431E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5809883E-02 Y=  0.3679512E-08 Z=  0.4611508E-02  Total=      0.0074176
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105287E+02         XY=  0.29049412E-01         XZ=  0.48785823E-01
                YY= -0.10161239E+02         YZ=  0.23057538E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54719829E-01 Y= -0.73672830E-11 Z=  0.13592568E-06   Total=     0.05471983
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22788875E+01         XY=  0.51702746E+00         XZ=  0.45782197E+00
                YY=  0.12448338E+01         YZ=  0.12842490E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8923236E-02 Y=  0.3679223E-08 Z=  0.4611721E-02  Total=      0.0100445
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074154E+02         XY=  0.44616176E-01         XZ=  0.62573900E-01
                YY= -0.10161239E+02         YZ=  0.23058601E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18364941E-01 Y= -0.19949444E-11 Z=  0.73330353E-07   Total=     0.01836494
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15918795E+01         XY=  0.17352354E+00         XZ=  0.15365342E+00
                YY=  0.12448331E+01         YZ=  0.69285390E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8641562E-02 Y=  0.3679728E-08 Z=  0.4611698E-02  Total=      0.0097951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076970E+02         XY=  0.43207806E-01         XZ=  0.61326440E-01
                YY= -0.10161239E+02         YZ=  0.23058489E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24977199E-01 Y=  0.14567458E-11 Z= -0.78160854E-07   Total=     0.02497720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77283324E+00         XY= -0.23600033E+00         XZ= -0.20897570E+00
                YY=  0.12448329E+01         YZ= -0.73850157E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5072038E-02 Y=  0.3681029E-08 Z=  0.4611473E-02  Total=      0.0068550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112665E+02         XY=  0.25360189E-01         XZ=  0.45518222E-01
                YY= -0.10161239E+02         YZ=  0.23057361E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58816135E-01 Y=  0.12650896E-11 Z= -0.11170730E-06   Total=     0.05881614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13337107E+00         XY= -0.55573194E+00         XZ= -0.49209385E+00
                YY=  0.12448336E+01         YZ= -0.10554711E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4272241E-03 Y=  0.3681607E-08 Z=  0.4611355E-02  Total=      0.0046311
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167658E+02         XY= -0.21361224E-02         XZ=  0.21164993E-01
                YY= -0.10161239E+02         YZ=  0.23056774E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70277107E-01 Y= -0.26942696E-11 Z=  0.17951507E-07   Total=     0.07027711
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83210718E-01         XY= -0.66402243E+00         XZ= -0.58798227E+00
                YY=  0.12448342E+01         YZ=  0.16959417E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5763902E-02 Y=  0.3688397E-08 Z=  0.4611508E-02  Total=      0.0073816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221025E+02         XY= -0.28819512E-01         XZ= -0.24668987E-02
                YY= -0.10161239E+02         YZ=  0.23057539E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54999535E-01 Y= -0.87707824E-11 Z=  0.13269376E-06   Total=     0.05499954
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20549202E+00         XY= -0.51967029E+00         XZ= -0.46015927E+00
                YY=  0.12448339E+01         YZ=  0.12537007E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8907531E-02 Y=  0.3688686E-08 Z=  0.4611722E-02  Total=      0.0100306
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252461E+02         XY= -0.44537658E-01         XZ= -0.16386899E-01
                YY= -0.10161239E+02         YZ=  0.23058608E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18796095E-01 Y= -0.14193513E-10 Z=  0.76330217E-07   Total=     0.01879609
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88963774E+00         XY= -0.17759736E+00         XZ= -0.15725889E+00
                YY=  0.12448331E+01         YZ=  0.72109713E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8662040E-02 Y=  0.3688614E-08 Z=  0.4611703E-02  Total=      0.0098132
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250006E+02         XY= -0.43310203E-01         XZ= -0.15299856E-01
                YY= -0.10161239E+02         YZ=  0.23058512E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24558836E-01 Y= -0.16294085E-10 Z= -0.70802886E-07   Total=     0.02455884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17089287E+01         XY=  0.23204737E+00         XZ=  0.20547448E+00
                YY=  0.12448330E+01         YZ= -0.66912669E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5120821E-02 Y=  0.3687169E-08 Z=  0.4611479E-02  Total=      0.0068912
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214594E+02         XY= -0.25604109E-01         XZ=  0.38079266E-03
                YY= -0.10161239E+02         YZ=  0.23057391E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58569934E-01 Y= -0.13754781E-10 Z= -0.10330859E-06   Total=     0.05856993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23516463E+01         XY=  0.55340567E+00         XZ=  0.49003249E+00
                YY=  0.12448336E+01         YZ= -0.97623975E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3688019E-03 Y=  0.3685146E-08 Z=  0.4611359E-02  Total=      0.0046261
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159698E+02         XY=  0.18440075E-02         XZ=  0.24690179E-01
                YY= -0.10161239E+02         YZ=  0.23056795E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70296932E-01 Y= -0.72988270E-11 Z=  0.25550375E-07   Total=     0.07029693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25732537E+01         XY=  0.66420975E+00         XZ=  0.58814911E+00
                YY=  0.12448342E+01         YZ=  0.24135504E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5718192E-02 Y=  0.3692226E-08 Z=  0.4611511E-02  Total=      0.0073460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106204E+02         XY=  0.28590957E-01         XZ=  0.48379913E-01
                YY= -0.10161239E+02         YZ=  0.23057552E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55278024E-01 Y=  0.52825675E-12 Z=  0.13889274E-06   Total=     0.05527802
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22894359E+01         XY=  0.52230163E+00         XZ=  0.46249241E+00
                YY=  0.12448339E+01         YZ=  0.13123507E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8892064E-02 Y=  0.3693093E-08 Z=  0.4611726E-02  Total=      0.0100168
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074465E+02         XY=  0.44460317E-01         XZ=  0.62436009E-01
                YY= -0.10161239E+02         YZ=  0.23058628E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19227458E-01 Y=  0.64294524E-11 Z=  0.79704354E-07   Total=     0.01922746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16081788E+01         XY=  0.18167315E+00         XZ=  0.16086995E+00
                YY=  0.12448331E+01         YZ=  0.75315090E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8682856E-02 Y=  0.3693021E-08 Z=  0.4611710E-02  Total=      0.0098316
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076557E+02         XY=  0.43414276E-01         XZ=  0.61509485E-01
                YY= -0.10161239E+02         YZ=  0.23058547E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24138563E-01 Y=  0.78237069E-11 Z= -0.72511023E-07   Total=     0.02413856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78868121E+00         XY= -0.22807636E+00         XZ= -0.20195910E+00
                YY=  0.12448330E+01         YZ= -0.68506427E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5170169E-02 Y=  0.3692732E-08 Z=  0.4611486E-02  Total=      0.0069279
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111684E+02         XY=  0.25850843E-01         XZ=  0.45952965E-01
                YY= -0.10161239E+02         YZ=  0.23057427E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58320506E-01 Y=  0.40556816E-11 Z= -0.11041927E-06   Total=     0.05832051
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14273715E+00         XY= -0.55104893E+00         XZ= -0.48794726E+00
                YY=  0.12448336E+01         YZ= -0.10432768E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3095145E-03 Y=  0.3692009E-08 Z=  0.4611363E-02  Total=      0.0046217
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166481E+02         XY= -0.15475745E-02         XZ=  0.21686403E-01
                YY= -0.10161239E+02         YZ=  0.23056815E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70313113E-01 Y= -0.32187693E-11 Z=  0.16511634E-07   Total=     0.07031311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83891043E-01         XY= -0.66436264E+00         XZ= -0.58828381E+00
                YY=  0.12448342E+01         YZ=  0.15598559E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5671326E-02 Y=  0.3697788E-08 Z=  0.4611512E-02  Total=      0.0073096
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220099E+02         XY= -0.28356633E-01         XZ= -0.20568272E-02
                YY= -0.10161239E+02         YZ=  0.23057559E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55553531E-01 Y= -0.10679692E-10 Z=  0.13307269E-06   Total=     0.05555353
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19502309E+00         XY= -0.52490480E+00         XZ= -0.46479473E+00
                YY=  0.12448339E+01         YZ=  0.12572655E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8875244E-02 Y=  0.3696994E-08 Z=  0.4611728E-02  Total=      0.0100019
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252138E+02         XY= -0.44376223E-01         XZ= -0.16243814E-01
                YY= -0.10161239E+02         YZ=  0.23058639E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19657359E-01 Y= -0.14770489E-10 Z=  0.79778784E-07   Total=     0.01965736
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87336225E+00         XY= -0.18573513E+00         XZ= -0.16446516E+00
                YY=  0.12448331E+01         YZ=  0.75367671E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8702264E-02 Y=  0.3696199E-08 Z=  0.4611715E-02  Total=      0.0098487
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250409E+02         XY= -0.43511324E-01         XZ= -0.15477864E-01
                YY= -0.10161239E+02         YZ=  0.23058573E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23717925E-01 Y= -0.13285235E-10 Z= -0.67867219E-07   Total=     0.02371793
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16930378E+01         XY=  0.22410191E+00         XZ=  0.19843851E+00
                YY=  0.12448330E+01         YZ= -0.64136355E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5218197E-02 Y=  0.3693815E-08 Z=  0.4611492E-02  Total=      0.0069639
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215568E+02         XY= -0.26090986E-01         XZ= -0.50309458E-04
                YY= -0.10161239E+02         YZ=  0.23057459E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58069244E-01 Y= -0.64041321E-11 Z= -0.10412732E-06   Total=     0.05806924
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23421847E+01         XY=  0.54867484E+00         XZ=  0.48584304E+00
                YY=  0.12448337E+01         YZ= -0.98391436E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2513725E-03 Y=  0.3692226E-08 Z=  0.4611368E-02  Total=      0.0046182
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160872E+02         XY=  0.12568603E-02         XZ=  0.24170233E-01
                YY= -0.10161239E+02         YZ=  0.23056838E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70326875E-01 Y=  0.33075857E-11 Z=  0.22751977E-07   Total=     0.07032687
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25738196E+01         XY=  0.66449266E+00         XZ=  0.58839936E+00
                YY=  0.12448342E+01         YZ=  0.21500237E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5625428E-02 Y=  0.3699305E-08 Z=  0.4611515E-02  Total=      0.0072740
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107132E+02         XY=  0.28127138E-01         XZ=  0.47969166E-01
                YY= -0.10161239E+02         YZ=  0.23057573E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55827118E-01 Y=  0.11966706E-10 Z=  0.13858204E-06   Total=     0.05582712
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22998124E+01         XY=  0.52748982E+00         XZ=  0.46708637E+00
                YY=  0.12448339E+01         YZ=  0.13095102E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8859293E-02 Y=  0.3700678E-08 Z=  0.4611732E-02  Total=      0.0099878
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074793E+02         XY=  0.44296465E-01         XZ=  0.62290944E-01
                YY= -0.10161239E+02         YZ=  0.23058659E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20086711E-01 Y=  0.16055202E-10 Z=  0.82895778E-07   Total=     0.02008671
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16244163E+01         XY=  0.18979191E+00         XZ=  0.16805905E+00
                YY=  0.12448331E+01         YZ=  0.78338541E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8722575E-02 Y=  0.3701328E-08 Z=  0.4611722E-02  Total=      0.0098667
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076160E+02         XY=  0.43612871E-01         XZ=  0.61685462E-01
                YY= -0.10161239E+02         YZ=  0.23058608E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23296132E-01 Y=  0.13980465E-10 Z= -0.69746281E-07   Total=     0.02329613
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80460085E+00         XY= -0.22011654E+00         XZ= -0.19491062E+00
                YY=  0.12448330E+01         YZ= -0.65889056E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5267289E-02 Y=  0.3699956E-08 Z=  0.4611500E-02  Total=      0.0070007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110713E+02         XY=  0.26336445E-01         XZ=  0.46383152E-01
                YY= -0.10161239E+02         YZ=  0.23057496E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57815449E-01 Y=  0.68133538E-11 Z= -0.11169809E-06   Total=     0.05781545
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15228140E+00         XY= -0.54627682E+00         XZ= -0.48372139E+00
                YY=  0.12448336E+01         YZ= -0.10553379E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1919223E-03 Y=  0.3700028E-08 Z=  0.4611372E-02  Total=      0.0046154
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165305E+02         XY= -0.95961356E-03         XZ=  0.22207233E-01
                YY= -0.10161239E+02         YZ=  0.23056859E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70337593E-01 Y= -0.21422481E-11 Z=  0.12701648E-07   Total=     0.07033759
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84353576E-01         XY= -0.66459394E+00         XZ= -0.58848837E+00
                YY=  0.12448342E+01         YZ=  0.11999398E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5577981E-02 Y=  0.3707035E-08 Z=  0.4611516E-02  Total=      0.0072374
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219166E+02         XY= -0.27889907E-01         XZ= -0.16433816E-02
                YY= -0.10161239E+02         YZ=  0.23057579E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56098223E-01 Y= -0.87746492E-11 Z=  0.13117605E-06   Total=     0.05609822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18472997E+00         XY= -0.53005139E+00         XZ= -0.46935168E+00
                YY=  0.12448339E+01         YZ=  0.12393590E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8841639E-02 Y=  0.3707902E-08 Z=  0.4611734E-02  Total=      0.0099721
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251802E+02         XY= -0.44208196E-01         XZ= -0.16094896E-01
                YY= -0.10161239E+02         YZ=  0.23058669E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20515009E-01 Y= -0.99652270E-11 Z=  0.81034259E-07   Total=     0.02051501
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85715503E+00         XY= -0.19383874E+00         XZ= -0.17164053E+00
                YY=  0.12448331E+01         YZ=  0.76557744E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8741162E-02 Y=  0.3708841E-08 Z=  0.4611727E-02  Total=      0.0098831
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250798E+02         XY= -0.43705814E-01         XZ= -0.15649978E-01
                YY= -0.10161239E+02         YZ=  0.23058632E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22873629E-01 Y= -0.49697754E-11 Z= -0.67029692E-07   Total=     0.02287363
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16770829E+01         XY=  0.21612447E+00         XZ=  0.19137478E+00
                YY=  0.12448330E+01         YZ= -0.63338262E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5314778E-02 Y=  0.3707902E-08 Z=  0.4611505E-02  Total=      0.0070365
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216534E+02         XY= -0.26573892E-01         XZ= -0.47785325E-03
                YY= -0.10161239E+02         YZ=  0.23057525E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57559510E-01 Y=  0.42358636E-11 Z= -0.10696506E-06   Total=     0.05755951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23325522E+01         XY=  0.54385855E+00         XZ=  0.48157833E+00
                YY=  0.12448336E+01         YZ= -0.10106404E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1338721E-03 Y=  0.3706674E-08 Z=  0.4611376E-02  Total=      0.0046133
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162047E+02         XY=  0.66935829E-03         XZ=  0.23650027E-01
                YY= -0.10161239E+02         YZ=  0.23056879E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70345599E-01 Y=  0.13805463E-10 Z=  0.18026323E-07   Total=     0.07034560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25741735E+01         XY=  0.66466958E+00         XZ=  0.58855593E+00
                YY=  0.12448342E+01         YZ=  0.17043691E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5531726E-02 Y=  0.3712742E-08 Z=  0.4611519E-02  Total=      0.0072018
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108069E+02         XY=  0.27658630E-01         XZ=  0.47554320E-01
                YY= -0.10161239E+02         YZ=  0.23057591E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56367115E-01 Y=  0.19694625E-10 Z=  0.13653708E-06   Total=     0.05636712
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23100169E+01         XY=  0.53259206E+00         XZ=  0.47160414E+00
                YY=  0.12448339E+01         YZ=  0.12902503E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8825048E-02 Y=  0.3713465E-08 Z=  0.4611738E-02  Total=      0.0099574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075135E+02         XY=  0.44125237E-01         XZ=  0.62139390E-01
                YY= -0.10161239E+02         YZ=  0.23058687E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20942461E-01 Y=  0.19420659E-10 Z=  0.84656380E-07   Total=     0.02094246
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16405877E+01         XY=  0.19787758E+00         XZ=  0.17521854E+00
                YY=  0.12448331E+01         YZ=  0.80004606E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8760815E-02 Y=  0.3714259E-08 Z=  0.4611733E-02  Total=      0.0099005
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075778E+02         XY=  0.43804074E-01         XZ=  0.61854918E-01
                YY= -0.10161239E+02         YZ=  0.23058665E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22450281E-01 Y=  0.13132886E-10 Z= -0.68146884E-07   Total=     0.02245028
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82058508E+00         XY= -0.21212442E+00         XZ= -0.18783405E+00
                YY=  0.12448329E+01         YZ= -0.64378861E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5363462E-02 Y=  0.3715487E-08 Z=  0.4611512E-02  Total=      0.0070734
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109751E+02         XY=  0.26817306E-01         XZ=  0.46809140E-01
                YY= -0.10161239E+02         YZ=  0.23057560E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57301379E-01 Y=  0.35269917E-11 Z= -0.11408413E-06   Total=     0.05730138
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16199591E+00         XY= -0.54141956E+00         XZ= -0.47942081E+00
                YY=  0.12448336E+01         YZ= -0.10779135E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7441979E-04 Y=  0.3716499E-08 Z=  0.4611380E-02  Total=      0.0046120
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164130E+02         XY= -0.37210095E-03         XZ=  0.22727636E-01
                YY= -0.10161239E+02         YZ=  0.23056899E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70350948E-01 Y= -0.53481893E-11 Z=  0.76554932E-08   Total=     0.07035095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84605914E-01         XY= -0.66472012E+00         XZ= -0.58860060E+00
                YY=  0.12448342E+01         YZ=  0.72284534E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5483870E-02 Y=  0.3723506E-08 Z=  0.4611519E-02  Total=      0.0071651
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218224E+02         XY= -0.27419353E-01         XZ= -0.12266064E-02
                YY= -0.10161239E+02         YZ=  0.23057595E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56633979E-01 Y= -0.98560615E-11 Z=  0.12794722E-06   Total=     0.05663398
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17460566E+00         XY= -0.53511355E+00         XZ= -0.47383462E+00
                YY=  0.12448339E+01         YZ=  0.12088385E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8806747E-02 Y=  0.3724156E-08 Z=  0.4611739E-02  Total=      0.0099412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251453E+02         XY= -0.44033739E-01         XZ= -0.15940373E-01
                YY= -0.10161239E+02         YZ=  0.23058694E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21369392E-01 Y= -0.83303894E-11 Z=  0.81084405E-07   Total=     0.02136939
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84100951E+00         XY= -0.20191149E+00         XZ= -0.17878922E+00
                YY=  0.12448331E+01         YZ=  0.76606167E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8778793E-02 Y=  0.3723289E-08 Z=  0.4611738E-02  Total=      0.0099164
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251174E+02         XY= -0.43893968E-01         XZ= -0.15816596E-01
                YY= -0.10161239E+02         YZ=  0.23058686E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22025616E-01 Y= -0.17480086E-11 Z= -0.67089702E-07   Total=     0.02202562
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16610577E+01         XY=  0.20811191E+00         XZ=  0.18427947E+00
                YY=  0.12448329E+01         YZ= -0.63392582E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5410648E-02 Y=  0.3721267E-08 Z=  0.4611518E-02  Total=      0.0071092
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217492E+02         XY= -0.27053241E-01         XZ= -0.90237551E-03
                YY= -0.10161239E+02         YZ=  0.23057586E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57040442E-01 Y=  0.67586715E-11 Z= -0.11042017E-06   Total=     0.05704044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23227432E+01         XY=  0.53895407E+00         XZ=  0.47723526E+00
                YY=  0.12448336E+01         YZ= -0.10432684E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1619887E-04 Y=  0.3720111E-08 Z=  0.4611383E-02  Total=      0.0046114
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163224E+02         XY=  0.80992327E-04         XZ=  0.23128921E-01
                YY= -0.10161239E+02         YZ=  0.23056915E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70352908E-01 Y=  0.13308875E-10 Z=  0.12800978E-07   Total=     0.07035291
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25743116E+01         XY=  0.66473864E+00         XZ=  0.58861697E+00
                YY=  0.12448342E+01         YZ=  0.12105742E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5436976E-02 Y=  0.3727046E-08 Z=  0.4611521E-02  Total=      0.0071293
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109016E+02         XY=  0.27184880E-01         XZ=  0.47134702E-01
                YY= -0.10161239E+02         YZ=  0.23057603E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56897989E-01 Y=  0.14963424E-10 Z=  0.13400658E-06   Total=     0.05689799
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23200489E+01         XY=  0.53760809E+00         XZ=  0.47604582E+00
                YY=  0.12448339E+01         YZ=  0.12662981E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8789224E-02 Y=  0.3728780E-08 Z=  0.4611742E-02  Total=      0.0099257
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075494E+02         XY=  0.43946119E-01         XZ=  0.61980732E-01
                YY= -0.10161239E+02         YZ=  0.23058708E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21794917E-01 Y=  0.10954838E-10 Z=  0.85977021E-07   Total=     0.02179492
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16566967E+01         XY=  0.20593212E+00         XZ=  0.18235092E+00
                YY=  0.12448331E+01         YZ=  0.81245070E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8797501E-02 Y=  0.3730369E-08 Z=  0.4611743E-02  Total=      0.0099330
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075411E+02         XY=  0.43987503E-01         XZ=  0.62017395E-01
                YY= -0.10161239E+02         YZ=  0.23058715E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21600551E-01 Y=  0.29392211E-11 Z= -0.66869149E-07   Total=     0.02160055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83664260E+00         XY= -0.20409563E+00         XZ= -0.18072439E+00
                YY=  0.12448329E+01         YZ= -0.63180360E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5458655E-02 Y=  0.3731669E-08 Z=  0.4611524E-02  Total=      0.0071458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108799E+02         XY=  0.27293272E-01         XZ=  0.47230728E-01
                YY= -0.10161239E+02         YZ=  0.23057619E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56777626E-01 Y= -0.58037184E-11 Z= -0.11665723E-06   Total=     0.05677763
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17189336E+00         XY= -0.53647082E+00         XZ= -0.47503849E+00
                YY=  0.12448335E+01         YZ= -0.11023061E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4302102E-04 Y=  0.3731814E-08 Z=  0.4611387E-02  Total=      0.0046116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162955E+02         XY=  0.21510310E-03         XZ=  0.23247732E-01
                YY= -0.10161239E+02         YZ=  0.23056933E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70352401E-01 Y= -0.11833559E-10 Z=  0.25424245E-08   Total=     0.07035240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84633369E-01         XY= -0.66473385E+00         XZ= -0.58861253E+00
                YY=  0.12448341E+01         YZ=  0.23916746E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5388904E-02 Y=  0.3738604E-08 Z=  0.4611521E-02  Total=      0.0070927
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217275E+02         XY= -0.26944520E-01         XZ= -0.80605020E-03
                YY= -0.10161239E+02         YZ=  0.23057605E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57160053E-01 Y= -0.13013708E-10 Z=  0.12479568E-06   Total=     0.05716005
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16466429E+00         XY= -0.54008423E+00         XZ= -0.47823592E+00
                YY=  0.12448339E+01         YZ=  0.11790326E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8770425E-02 Y=  0.3739688E-08 Z=  0.4611743E-02  Total=      0.0099090
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251090E+02         XY= -0.43852129E-01         XZ= -0.15779502E-01
                YY= -0.10161239E+02         YZ=  0.23058712E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22219926E-01 Y= -0.93461247E-11 Z=  0.81387198E-07   Total=     0.02221993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82493669E+00         XY= -0.20994787E+00         XZ= -0.18590526E+00
                YY=  0.12448331E+01         YZ=  0.76891263E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8814975E-02 Y=  0.3739327E-08 Z=  0.4611747E-02  Total=      0.0099485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251536E+02         XY= -0.44074877E-01         XZ= -0.15976769E-01
                YY= -0.10161239E+02         YZ=  0.23058732E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21174205E-01 Y= -0.28466103E-11 Z= -0.66788431E-07   Total=     0.02117420
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16449683E+01         XY=  0.20006724E+00         XZ=  0.17715592E+00
                YY=  0.12448328E+01         YZ= -0.63108973E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5505610E-02 Y=  0.3738821E-08 Z=  0.4611529E-02  Total=      0.0071818
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218442E+02         XY= -0.27528050E-01         XZ= -0.13228494E-02
                YY= -0.10161239E+02         YZ=  0.23057641E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56512049E-01 Y=  0.34318942E-11 Z= -0.11357175E-06   Total=     0.05651205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23127579E+01         XY=  0.53396148E+00         XZ=  0.47281407E+00
                YY=  0.12448335E+01         YZ= -0.10730754E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1014599E-03 Y=  0.3738243E-08 Z=  0.4611390E-02  Total=      0.0046125
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164400E+02         XY= -0.50730155E-03         XZ=  0.22607895E-01
                YY= -0.10161239E+02         YZ=  0.23056946E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70348518E-01 Y=  0.67584531E-11 Z=  0.77217380E-08   Total=     0.07034852
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25742287E+01         XY=  0.66469717E+00         XZ=  0.58857973E+00
                YY=  0.12448341E+01         YZ=  0.73009873E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5341334E-02 Y=  0.3744095E-08 Z=  0.4611522E-02  Total=      0.0070566
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109972E+02         XY=  0.26706670E-01         XZ=  0.46711124E-01
                YY= -0.10161239E+02         YZ=  0.23057609E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57419215E-01 Y=  0.58556476E-11 Z=  0.13158941E-06   Total=     0.05741922
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23298987E+01         XY=  0.54253296E+00         XZ=  0.48040611E+00
                YY=  0.12448338E+01         YZ=  0.12433822E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8751931E-02 Y=  0.3744311E-08 Z=  0.4611745E-02  Total=      0.0098926
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075866E+02         XY=  0.43759652E-01         XZ=  0.61815521E-01
                YY= -0.10161239E+02         YZ=  0.23058722E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22643391E-01 Y=  0.13313236E-11 Z=  0.87664263E-07   Total=     0.02264339
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16727305E+01         XY=  0.21394904E+00         XZ=  0.18944915E+00
                YY=  0.12448330E+01         YZ=  0.82831187E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8832683E-02 Y=  0.3744673E-08 Z=  0.4611752E-02  Total=      0.0099642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075059E+02         XY=  0.44163414E-01         XZ=  0.62173131E-01
                YY= -0.10161239E+02         YZ=  0.23058759E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20747704E-01 Y= -0.47267651E-11 Z= -0.64767996E-07   Total=     0.02074770
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85275900E+00         XY= -0.19603739E+00         XZ= -0.17358957E+00
                YY=  0.12448328E+01         YZ= -0.61201501E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5552860E-02 Y=  0.3745467E-08 Z=  0.4611535E-02  Total=      0.0072181
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107857E+02         XY=  0.27764297E-01         XZ=  0.47647819E-01
                YY= -0.10161239E+02         YZ=  0.23057672E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56244948E-01 Y= -0.97565440E-11 Z= -0.11798814E-06   Total=     0.05624495
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18195949E+00         XY= -0.53143774E+00         XZ= -0.47058235E+00
                YY=  0.12448334E+01         YZ= -0.11149147E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1603348E-03 Y=  0.3744889E-08 Z=  0.4611393E-02  Total=      0.0046142
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161782E+02         XY=  0.80167191E-03         XZ=  0.23767109E-01
                YY= -0.10161239E+02         YZ=  0.23056962E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70342619E-01 Y= -0.11845637E-10 Z= -0.10939464E-08   Total=     0.07034262
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84448520E-01         XY= -0.66464143E+00         XZ= -0.58853115E+00
                YY=  0.12448341E+01         YZ= -0.10442159E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5293193E-02 Y=  0.3750452E-08 Z=  0.4611522E-02  Total=      0.0070203
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216318E+02         XY= -0.26465965E-01         XZ= -0.38237811E-03
                YY= -0.10161239E+02         YZ=  0.23057610E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57676948E-01 Y= -0.10476302E-10 Z=  0.12324085E-06   Total=     0.05767695
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15489640E+00         XY= -0.54496818E+00         XZ= -0.48256085E+00
                YY=  0.12448338E+01         YZ=  0.11643629E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8732814E-02 Y=  0.3750019E-08 Z=  0.4611745E-02  Total=      0.0098757
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250714E+02         XY= -0.43664072E-01         XZ= -0.15613114E-01
                YY= -0.10161239E+02         YZ=  0.23058725E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23066881E-01 Y= -0.66012598E-11 Z=  0.83439844E-07   Total=     0.02306688
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.80893152E+00         XY= -0.21795044E+00         XZ= -0.19299145E+00
                YY=  0.12448330E+01         YZ=  0.78833046E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8849857E-02 Y=  0.3749224E-08 Z=  0.4611755E-02  Total=      0.0099794
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251884E+02         XY= -0.44249288E-01         XZ= -0.16131379E-01
                YY= -0.10161239E+02         YZ=  0.23058775E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20319405E-01 Y= -0.20794958E-11 Z= -0.64522159E-07   Total=     0.02031941
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16288149E+01         XY=  0.19199055E+00         XZ=  0.17000429E+00
                YY=  0.12448328E+01         YZ= -0.60966979E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5599799E-02 Y=  0.3748718E-08 Z=  0.4611539E-02  Total=      0.0072542
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219384E+02         XY= -0.27998999E-01         XZ= -0.17400755E-02
                YY= -0.10161239E+02         YZ=  0.23057694E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55974635E-01 Y=  0.12181454E-11 Z= -0.11457923E-06   Total=     0.05597464
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23026023E+01         XY=  0.52888366E+00         XZ=  0.46831801E+00
                YY=  0.12448334E+01         YZ= -0.10826127E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2192042E-03 Y=  0.3748212E-08 Z=  0.4611395E-02  Total=      0.0046166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165578E+02         XY= -0.10960232E-02         XZ=  0.22086351E-01
                YY= -0.10161239E+02         YZ=  0.23056975E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70332998E-01 Y=  0.22047687E-11 Z=  0.48580629E-08   Total=     0.07033300
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25739354E+01         XY=  0.66455052E+00         XZ=  0.58845024E+00
                YY=  0.12448341E+01         YZ=  0.45914523E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5244754E-02 Y=  0.3753631E-08 Z=  0.4611523E-02  Total=      0.0069838
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110938E+02         XY=  0.26223770E-01         XZ=  0.46283296E-01
                YY= -0.10161239E+02         YZ=  0.23057614E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57931557E-01 Y=  0.93180315E-12 Z=  0.13138664E-06   Total=     0.05793156
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23395805E+01         XY=  0.54737388E+00         XZ=  0.48469309E+00
                YY=  0.12448338E+01         YZ=  0.12414256E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8713187E-02 Y=  0.3752908E-08 Z=  0.4611748E-02  Total=      0.0098584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076254E+02         XY=  0.43565935E-01         XZ=  0.61643837E-01
                YY= -0.10161239E+02         YZ=  0.23058736E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23488738E-01 Y= -0.16062959E-11 Z=  0.91538784E-07   Total=     0.02348874
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16887052E+01         XY=  0.22193641E+00         XZ=  0.19652227E+00
                YY=  0.12448330E+01         YZ=  0.86489663E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8866449E-02 Y=  0.3753125E-08 Z=  0.4611761E-02  Total=      0.0099941
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074721E+02         XY=  0.44332245E-01         XZ=  0.62322587E-01
                YY= -0.10161239E+02         YZ=  0.23058802E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19890911E-01 Y= -0.40610435E-11 Z= -0.60580187E-07   Total=     0.01989091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86895000E+00         XY= -0.18794188E+00         XZ= -0.16642077E+00
                YY=  0.12448328E+01         YZ= -0.57244006E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5646226E-02 Y=  0.3753920E-08 Z=  0.4611546E-02  Total=      0.0072901
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106923E+02         XY=  0.28231127E-01         XZ=  0.48061222E-01
                YY= -0.10161239E+02         YZ=  0.23057726E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55702645E-01 Y= -0.53923335E-11 Z= -0.11748775E-06   Total=     0.05570264
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19220753E+00         XY= -0.52631372E+00         XZ= -0.46604494E+00
                YY=  0.12448334E+01         YZ= -0.11101498E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2777177E-03 Y=  0.3754281E-08 Z=  0.4611399E-02  Total=      0.0046198
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160608E+02         XY=  0.13885862E-02         XZ=  0.24286846E-01
                YY= -0.10161239E+02         YZ=  0.23056994E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70321115E-01 Y= -0.52830797E-11 Z= -0.32762280E-08   Total=     0.07032111
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84042114E-01         XY= -0.66443824E+00         XZ= -0.58835125E+00
                YY=  0.12448341E+01         YZ= -0.31006440E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5196513E-02 Y=  0.3760638E-08 Z=  0.4611524E-02  Total=      0.0069477
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215351E+02         XY= -0.25982566E-01         XZ=  0.45650277E-04
                YY= -0.10161239E+02         YZ=  0.23057618E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58184431E-01 Y= -0.41394620E-11 Z=  0.12279564E-06   Total=     0.05818443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14530639E+00         XY= -0.54976320E+00         XZ= -0.48680692E+00
                YY=  0.12448338E+01         YZ=  0.11602099E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8693681E-02 Y=  0.3760710E-08 Z=  0.4611749E-02  Total=      0.0098412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250323E+02         XY= -0.43468408E-01         XZ= -0.15439927E-01
                YY= -0.10161239E+02         YZ=  0.23058741E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23910295E-01 Y= -0.27319158E-11 Z=  0.86392365E-07   Total=     0.02391029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79299332E+00         XY= -0.22591954E+00         XZ= -0.20004823E+00
                YY=  0.12448330E+01         YZ=  0.81626082E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8883223E-02 Y=  0.3759988E-08 Z=  0.4611764E-02  Total=      0.0100090
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252218E+02         XY= -0.44416118E-01         XZ= -0.16279227E-01
                YY= -0.10161239E+02         YZ=  0.23058820E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19460921E-01 Y= -0.17106094E-11 Z= -0.61511281E-07   Total=     0.01946092
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16125919E+01         XY=  0.18387906E+00         XZ=  0.16282132E+00
                YY=  0.12448328E+01         YZ= -0.58121725E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5693034E-02 Y=  0.3758471E-08 Z=  0.4611550E-02  Total=      0.0073265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220316E+02         XY= -0.28465174E-01         XZ= -0.21530520E-02
                YY= -0.10161239E+02         YZ=  0.23057749E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55427677E-01 Y= -0.12672523E-11 Z= -0.11509840E-06   Total=     0.05542768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22922663E+01         XY=  0.52371565E+00         XZ=  0.46374137E+00
                YY=  0.12448334E+01         YZ= -0.10875382E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3369024E-03 Y=  0.3757532E-08 Z=  0.4611402E-02  Total=      0.0046237
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166755E+02         XY= -0.16845140E-02         XZ=  0.21565001E-01
                YY= -0.10161239E+02         YZ=  0.23057008E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70305641E-01 Y= -0.11152931E-11 Z=  0.21192949E-08   Total=     0.07030564
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25734185E+01         XY=  0.66429204E+00         XZ=  0.58822088E+00
                YY=  0.12448341E+01         YZ=  0.20009801E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5147305E-02 Y=  0.3762299E-08 Z=  0.4611525E-02  Total=      0.0069109
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111913E+02         XY=  0.25736524E-01         XZ=  0.45851571E-01
                YY= -0.10161239E+02         YZ=  0.23057622E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58434191E-01 Y= -0.77226287E-12 Z=  0.13103325E-06   Total=     0.05843419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23490790E+01         XY=  0.55212309E+00         XZ=  0.48889804E+00
                YY=  0.12448338E+01         YZ=  0.12380730E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8672994E-02 Y=  0.3760566E-08 Z=  0.4611751E-02  Total=      0.0098229
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076656E+02         XY=  0.43364966E-01         XZ=  0.61465652E-01
                YY= -0.10161239E+02         YZ=  0.23058752E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24330109E-01 Y=  0.44025713E-13 Z=  0.95268307E-07   Total=     0.02433011
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17046048E+01         XY=  0.22988621E+00         XZ=  0.20356143E+00
                YY=  0.12448331E+01         YZ=  0.90015001E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8898733E-02 Y=  0.3759915E-08 Z=  0.4611770E-02  Total=      0.0100228
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074398E+02         XY=  0.44493661E-01         XZ=  0.62465375E-01
                YY= -0.10161239E+02         YZ=  0.23058848E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19030938E-01 Y=  0.11554982E-11 Z= -0.56275875E-07   Total=     0.01903094
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88520115E+00         XY= -0.17981630E+00         XZ= -0.15922583E+00
                YY=  0.12448328E+01         YZ= -0.53172565E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5738631E-02 Y=  0.3761360E-08 Z=  0.4611557E-02  Total=      0.0073620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105999E+02         XY=  0.28693155E-01         XZ=  0.48470259E-01
                YY= -0.10161239E+02         YZ=  0.23057784E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55151278E-01 Y=  0.19704662E-11 Z= -0.11657229E-06   Total=     0.05515128
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20262688E+00         XY= -0.52110406E+00         XZ= -0.46143187E+00
                YY=  0.12448334E+01         YZ= -0.11014371E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3950156E-03 Y=  0.3762516E-08 Z=  0.4611406E-02  Total=      0.0046283
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159435E+02         XY=  0.19750757E-02         XZ=  0.24806096E-01
                YY= -0.10161239E+02         YZ=  0.23057030E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70288141E-01 Y=  0.18301846E-11 Z= -0.49016434E-08   Total=     0.07028814
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83418937E-01         XY= -0.66412669E+00         XZ= -0.58807525E+00
                YY=  0.12448341E+01         YZ= -0.46303322E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5099023E-02 Y=  0.3768946E-08 Z=  0.4611526E-02  Total=      0.0068750
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214376E+02         XY= -0.25495118E-01         XZ=  0.47716582E-03
                YY= -0.10161239E+02         YZ=  0.23057628E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58682386E-01 Y=  0.46839284E-12 Z=  0.12286624E-06   Total=     0.05868239
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13589646E+00         XY= -0.55446820E+00         XZ= -0.49097285E+00
                YY=  0.12448339E+01         YZ=  0.11609172E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8653162E-02 Y=  0.3769957E-08 Z=  0.4611752E-02  Total=      0.0098054
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249917E+02         XY= -0.43265811E-01         XZ= -0.15260674E-01
                YY= -0.10161239E+02         YZ=  0.23058759E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24749687E-01 Y= -0.16890790E-11 Z=  0.89708944E-07   Total=     0.02474969
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77713114E+00         XY= -0.23385065E+00         XZ= -0.20707068E+00
                YY=  0.12448331E+01         YZ=  0.84760845E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8915156E-02 Y=  0.3769596E-08 Z=  0.4611774E-02  Total=      0.0100374
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252537E+02         XY= -0.44575782E-01         XZ= -0.16420770E-01
                YY= -0.10161239E+02         YZ=  0.23058867E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18599520E-01 Y= -0.35901677E-11 Z= -0.58362342E-07   Total=     0.01859952
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15963137E+01         XY=  0.17573999E+00         XZ=  0.15561479E+00
                YY=  0.12448328E+01         YZ= -0.55147814E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5785329E-02 Y=  0.3768946E-08 Z=  0.4611562E-02  Total=      0.0073984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221239E+02         XY= -0.28926647E-01         XZ= -0.25618663E-02
                YY= -0.10161239E+02         YZ=  0.23057808E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54872090E-01 Y= -0.40087383E-11 Z= -0.11578132E-06   Total=     0.05487209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22817672E+01         XY=  0.51846611E+00         XZ=  0.45909346E+00
                YY=  0.12448334E+01         YZ= -0.10940123E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4544947E-03 Y=  0.3768946E-08 Z=  0.4611409E-02  Total=      0.0046338
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167930E+02         XY= -0.22724757E-02         XZ=  0.21044157E-01
                YY= -0.10161239E+02         YZ=  0.23057044E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70267349E-01 Y= -0.21869171E-11 Z= -0.11011677E-08   Total=     0.07026735
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25726949E+01         XY=  0.66393023E+00         XZ=  0.58790093E+00
                YY=  0.12448341E+01         YZ= -0.10426685E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5049112E-02 Y=  0.3774797E-08 Z=  0.4611527E-02  Total=      0.0068381
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112894E+02         XY=  0.25245559E-01         XZ=  0.45416628E-01
                YY= -0.10161239E+02         YZ=  0.23057633E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58927851E-01 Y=  0.16596615E-11 Z=  0.12999275E-06   Total=     0.05892785
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23584079E+01         XY=  0.55678750E+00         XZ=  0.49302868E+00
                YY=  0.12448339E+01         YZ=  0.12282634E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8631523E-02 Y=  0.3775231E-08 Z=  0.4611754E-02  Total=      0.0097863
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077070E+02         XY=  0.43157614E-01         XZ=  0.61281917E-01
                YY= -0.10161239E+02         YZ=  0.23058770E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25167966E-01 Y=  0.62661627E-11 Z=  0.98276083E-07   Total=     0.02516797
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17204381E+01         XY=  0.23780281E+00         XZ=  0.21057177E+00
                YY=  0.12448331E+01         YZ=  0.92862292E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8929732E-02 Y=  0.3776314E-08 Z=  0.4611779E-02  Total=      0.0100503
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074088E+02         XY=  0.44648658E-01         XZ=  0.62602600E-01
                YY= -0.10161239E+02         YZ=  0.23058895E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18167625E-01 Y=  0.97745142E-11 Z= -0.52670623E-07   Total=     0.01816762
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.90151540E+00         XY= -0.17165918E+00         XZ= -0.15200265E+00
                YY=  0.12448328E+01         YZ= -0.49758735E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5830277E-02 Y=  0.3777109E-08 Z=  0.4611569E-02  Total=      0.0074336
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105083E+02         XY=  0.29151385E-01         XZ=  0.48876064E-01
                YY= -0.10161239E+02         YZ=  0.23057843E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54590965E-01 Y=  0.10559060E-10 Z= -0.11645228E-06   Total=     0.05459096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21321530E+00         XY= -0.51580986E+00         XZ= -0.45674396E+00
                YY=  0.12448334E+01         YZ= -0.11002301E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5124115E-03 Y=  0.3777903E-08 Z=  0.4611414E-02  Total=      0.0046398
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158261E+02         XY=  0.25620556E-02         XZ=  0.25325906E-01
                YY= -0.10161239E+02         YZ=  0.23057067E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70244020E-01 Y=  0.80502641E-11 Z= -0.75621565E-08   Total=     0.07024402
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82585101E-01         XY= -0.66370980E+00         XZ= -0.58770629E+00
                YY=  0.12448341E+01         YZ= -0.71388378E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5000571E-02 Y=  0.3783827E-08 Z=  0.4611528E-02  Total=      0.0068023
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213391E+02         XY= -0.25002858E-01         XZ=  0.91305179E-03
                YY= -0.10161239E+02         YZ=  0.23057640E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59171263E-01 Y=  0.31447828E-11 Z=  0.12169690E-06   Total=     0.05917126
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12665810E+00         XY= -0.55908741E+00         XZ= -0.49506338E+00
                YY=  0.12448339E+01         YZ=  0.11498917E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8611141E-02 Y=  0.3783538E-08 Z=  0.4611756E-02  Total=      0.0097683
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249497E+02         XY= -0.43055708E-01         XZ= -0.15074692E-01
                YY= -0.10161239E+02         YZ=  0.23058777E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25585575E-01 Y= -0.20459437E-11 Z=  0.91797747E-07   Total=     0.02558558
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76133517E+00         XY= -0.24174865E+00         XZ= -0.21406457E+00
                YY=  0.12448331E+01         YZ=  0.86734209E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8945584E-02 Y=  0.3782310E-08 Z=  0.4611783E-02  Total=      0.0100644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252841E+02         XY= -0.44727921E-01         XZ= -0.16555600E-01
                YY= -0.10161239E+02         YZ=  0.23058914E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17734640E-01 Y= -0.50549561E-11 Z= -0.56238699E-07   Total=     0.01773464
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15799699E+01         XY=  0.16756807E+00         XZ=  0.14837835E+00
                YY=  0.12448328E+01         YZ= -0.53142495E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5876658E-02 Y=  0.3781371E-08 Z=  0.4611574E-02  Total=      0.0074701
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222152E+02         XY= -0.29383293E-01         XZ= -0.29663894E-02
                YY= -0.10161239E+02         YZ=  0.23057866E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54307278E-01 Y= -0.41746910E-11 Z= -0.11730088E-06   Total=     0.05430728
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22710939E+01         XY=  0.51312941E+00         XZ=  0.45436760E+00
                YY=  0.12448334E+01         YZ= -0.11083718E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5720062E-03 Y=  0.3781082E-08 Z=  0.4611417E-02  Total=      0.0046468
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169105E+02         XY= -0.28600330E-02         XZ=  0.20523659E-01
                YY= -0.10161239E+02         YZ=  0.23057080E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70217500E-01 Y=  0.67931514E-12 Z= -0.51352912E-08   Total=     0.07021750
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25717530E+01         XY=  0.66345922E+00         XZ=  0.58748368E+00
                YY=  0.12448341E+01         YZ= -0.48520197E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4950100E-02 Y=  0.3786861E-08 Z=  0.4611529E-02  Total=      0.0067653
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113884E+02         XY=  0.24750496E-01         XZ=  0.44978021E-01
                YY= -0.10161239E+02         YZ=  0.23057643E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59411934E-01 Y=  0.77834696E-11 Z=  0.12803843E-06   Total=     0.05941193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23675558E+01         XY=  0.56136143E+00         XZ=  0.49707883E+00
                YY=  0.12448339E+01         YZ=  0.12098483E-05         ZZ=  0.12448360E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8588653E-02 Y=  0.3787439E-08 Z=  0.4611757E-02  Total=      0.0097485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077499E+02         XY=  0.42943265E-01         XZ=  0.61091941E-01
                YY= -0.10161239E+02         YZ=  0.23058785E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26001809E-01 Y=  0.14240623E-10 Z=  0.10028614E-06   Total=     0.02600181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17361955E+01         XY=  0.24568149E+00         XZ=  0.21754845E+00
                YY=  0.12448331E+01         YZ=  0.94768100E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8959289E-02 Y=  0.3788740E-08 Z=  0.4611788E-02  Total=      0.0100766
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073793E+02         XY=  0.44796445E-01         XZ=  0.62733398E-01
                YY= -0.10161239E+02         YZ=  0.23058940E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17301259E-01 Y=  0.17199473E-10 Z= -0.50070689E-07   Total=     0.01730126
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91788736E+00         XY= -0.16347320E+00         XZ= -0.14475367E+00
                YY=  0.12448328E+01         YZ= -0.47296049E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5920992E-02 Y=  0.3790907E-08 Z=  0.4611580E-02  Total=      0.0075050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104176E+02         XY=  0.29604959E-01         XZ=  0.49277723E-01
                YY= -0.10161239E+02         YZ=  0.23057899E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54021669E-01 Y=  0.15136027E-10 Z= -0.11730912E-06   Total=     0.05402167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22397347E+00         XY= -0.51043079E+00         XZ= -0.45198034E+00
                YY=  0.12448334E+01         YZ= -0.11082890E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6297499E-03 Y=  0.3792641E-08 Z=  0.4611421E-02  Total=      0.0046542
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157088E+02         XY=  0.31487474E-02         XZ=  0.25845467E-01
                YY= -0.10161239E+02         YZ=  0.23057102E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70188337E-01 Y=  0.86163527E-11 Z= -0.11154544E-07   Total=     0.07018834
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81532768E-01         XY= -0.66318367E+00         XZ= -0.58723982E+00
                YY=  0.12448341E+01         YZ= -0.10532820E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4901267E-02 Y=  0.3798564E-08 Z=  0.4611530E-02  Total=      0.0067297
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212398E+02         XY= -0.24506337E-01         XZ=  0.13527537E-02
                YY= -0.10161239E+02         YZ=  0.23057649E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59650297E-01 Y=  0.16418905E-12 Z=  0.11970784E-06   Total=     0.05965030
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11760575E+00         XY= -0.56361363E+00         XZ= -0.49907066E+00
                YY=  0.12448339E+01         YZ=  0.11310713E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8567660E-02 Y=  0.3797770E-08 Z=  0.4611758E-02  Total=      0.0097300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249062E+02         XY= -0.42838300E-01         XZ= -0.14882159E-01
                YY= -0.10161239E+02         YZ=  0.23058790E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26416969E-01 Y= -0.67512604E-11 Z=  0.93257954E-07   Total=     0.02641697
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.74562413E+00         XY= -0.24960418E+00         XZ= -0.22101993E+00
                YY=  0.12448332E+01         YZ=  0.88109818E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8974466E-02 Y=  0.3796831E-08 Z=  0.4611792E-02  Total=      0.0100901
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253130E+02         XY= -0.44872332E-01         XZ= -0.16683465E-01
                YY= -0.10161239E+02         YZ=  0.23058956E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16867310E-01 Y= -0.91968842E-11 Z= -0.54595203E-07   Total=     0.01686731
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15635797E+01         XY=  0.15937298E+00         XZ=  0.14112222E+00
                YY=  0.12448328E+01         YZ= -0.51593229E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5966905E-02 Y=  0.3795386E-08 Z=  0.4611585E-02  Total=      0.0075413
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223054E+02         XY= -0.29834525E-01         XZ= -0.33659654E-02
                YY= -0.10161239E+02         YZ=  0.23057921E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53734095E-01 Y= -0.60822025E-11 Z= -0.11935036E-06   Total=     0.05373409
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22602623E+01         XY=  0.50771361E+00         XZ=  0.44957232E+00
                YY=  0.12448334E+01         YZ= -0.11277539E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6892639E-03 Y=  0.3794302E-08 Z=  0.4611423E-02  Total=      0.0046627
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170278E+02         XY= -0.34463214E-02         XZ=  0.20004460E-01
                YY= -0.10161239E+02         YZ=  0.23057112E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70156609E-01 Y=  0.12971951E-11 Z= -0.99355907E-08   Total=     0.07015661
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25706024E+01         XY=  0.66288389E+00         XZ=  0.58697438E+00
                YY=  0.12448341E+01         YZ= -0.93872575E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4850465E-02 Y=  0.3798998E-08 Z=  0.4611530E-02  Total=      0.0066928
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114881E+02         XY=  0.24252325E-01         XZ=  0.44536846E-01
                YY= -0.10161239E+02         YZ=  0.23057648E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59886539E-01 Y=  0.97466510E-11 Z=  0.12511136E-06   Total=     0.05988654
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23765246E+01         XY=  0.56584579E+00         XZ=  0.50104970E+00
                YY=  0.12448340E+01         YZ=  0.11822069E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8544574E-02 Y=  0.3798853E-08 Z=  0.4611759E-02  Total=      0.0097097
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077940E+02         XY=  0.42722869E-01         XZ=  0.60896788E-01
                YY= -0.10161239E+02         YZ=  0.23058795E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26831345E-01 Y=  0.15506155E-10 Z=  0.10136113E-06   Total=     0.02683134
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17518714E+01         XY=  0.25351947E+00         XZ=  0.22448884E+00
                YY=  0.12448332E+01         YZ=  0.95784793E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8987560E-02 Y=  0.3799503E-08 Z=  0.4611796E-02  Total=      0.0101017
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073510E+02         XY=  0.44937797E-01         XZ=  0.62858663E-01
                YY= -0.10161239E+02         YZ=  0.23058978E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16432411E-01 Y=  0.15869280E-10 Z= -0.48128001E-07   Total=     0.01643241
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.93430619E+00         XY= -0.15526379E+00         XZ= -0.13748445E+00
                YY=  0.12448329E+01         YZ= -0.45461637E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6010880E-02 Y=  0.3801093E-08 Z=  0.4611590E-02  Total=      0.0075761
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103277E+02         XY=  0.30054397E-01         XZ=  0.49675858E-01
                YY= -0.10161239E+02         YZ=  0.23057950E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53444091E-01 Y=  0.10382120E-10 Z= -0.11850274E-06   Total=     0.05344409
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23488811E+00         XY= -0.50497348E+00         XZ= -0.44714812E+00
                YY=  0.12448334E+01         YZ= -0.11196070E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7470780E-03 Y=  0.3802249E-08 Z=  0.4611427E-02  Total=      0.0046716
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155914E+02         XY=  0.37353880E-02         XZ=  0.26365094E-01
                YY= -0.10161239E+02         YZ=  0.23057131E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70121785E-01 Y=  0.10906059E-11 Z= -0.14891118E-07   Total=     0.07012178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80275060E-01         XY= -0.66255485E+00         XZ= -0.58668317E+00
                YY=  0.12448341E+01         YZ= -0.14069646E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4801115E-02 Y=  0.3807522E-08 Z=  0.4611531E-02  Total=      0.0066571
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211396E+02         XY= -0.24005576E-01         XZ=  0.17962912E-02
                YY= -0.10161239E+02         YZ=  0.23057652E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60120084E-01 Y= -0.82870792E-11 Z=  0.11763531E-06   Total=     0.06012008
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10872811E+00         XY= -0.56805247E+00         XZ= -0.50300129E+00
                YY=  0.12448340E+01         YZ=  0.11114185E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8522764E-02 Y=  0.3805572E-08 Z=  0.4611760E-02  Total=      0.0096905
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248613E+02         XY= -0.42613821E-01         XZ= -0.14683310E-01
                YY= -0.10161239E+02         YZ=  0.23058797E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27244339E-01 Y= -0.13921528E-10 Z=  0.94641447E-07   Total=     0.02724434
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72998912E+00         XY= -0.25742169E+00         XZ= -0.22794220E+00
                YY=  0.12448332E+01         YZ=  0.89411089E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9001882E-02 Y=  0.3802538E-08 Z=  0.4611799E-02  Total=      0.0101145
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253404E+02         XY= -0.45009411E-01         XZ= -0.16804804E-01
                YY= -0.10161239E+02         YZ=  0.23058992E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15997168E-01 Y= -0.13498296E-10 Z= -0.53067246E-07   Total=     0.01599717
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15471364E+01         XY=  0.15115133E+00         XZ=  0.13384218E+00
                YY=  0.12448328E+01         YZ= -0.50153049E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6056173E-02 Y=  0.3799937E-08 Z=  0.4611594E-02  Total=      0.0076121
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223947E+02         XY= -0.30280866E-01         XZ= -0.37611882E-02
                YY= -0.10161239E+02         YZ=  0.23057969E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53152264E-01 Y= -0.72090397E-11 Z= -0.12165882E-06   Total=     0.05315226
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22492673E+01         XY=  0.50221612E+00         XZ=  0.44470454E+00
                YY=  0.12448334E+01         YZ= -0.11495743E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8063907E-03 Y=  0.3798998E-08 Z=  0.4611428E-02  Total=      0.0046814
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171449E+02         XY= -0.40319553E-02         XZ=  0.19485860E-01
                YY= -0.10161239E+02         YZ=  0.23057139E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70084478E-01 Y=  0.23199535E-11 Z= -0.15233712E-07   Total=     0.07008448
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25692393E+01         XY=  0.66220235E+00         XZ=  0.58637113E+00
                YY=  0.12448341E+01         YZ= -0.14392295E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4750075E-02 Y=  0.3804271E-08 Z=  0.4611530E-02  Total=      0.0066204
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115885E+02         XY=  0.23750374E-01         XZ=  0.44092348E-01
                YY= -0.10161239E+02         YZ=  0.23057648E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60351570E-01 Y=  0.11136344E-10 Z=  0.12148088E-06   Total=     0.06035157
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23853124E+01         XY=  0.57023969E+00         XZ=  0.50494078E+00
                YY=  0.12448340E+01         YZ=  0.11479168E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8499150E-02 Y=  0.3804488E-08 Z=  0.4611760E-02  Total=      0.0096697
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078394E+02         XY=  0.42495746E-01         XZ=  0.60695720E-01
                YY= -0.10161239E+02         YZ=  0.23058798E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27656632E-01 Y=  0.15630200E-10 Z=  0.10167672E-06   Total=     0.02765663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17674671E+01         XY=  0.26131730E+00         XZ=  0.23139412E+00
                YY=  0.12448332E+01         YZ=  0.96083260E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9014420E-02 Y=  0.3805933E-08 Z=  0.4611802E-02  Total=      0.0101256
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073241E+02         XY=  0.45072098E-01         XZ=  0.62977743E-01
                YY= -0.10161239E+02         YZ=  0.23059009E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15560831E-01 Y=  0.14050600E-10 Z= -0.46893110E-07   Total=     0.01556083
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95077665E+00         XY= -0.14702854E+00         XZ= -0.13019182E+00
                YY=  0.12448328E+01         YZ= -0.44296171E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6099845E-02 Y=  0.3806800E-08 Z=  0.4611599E-02  Total=      0.0076469
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102387E+02         XY=  0.30499223E-01         XZ=  0.50069993E-01
                YY= -0.10161239E+02         YZ=  0.23057995E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52857781E-01 Y=  0.72244148E-11 Z= -0.12039922E-06   Total=     0.05285778
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24596775E+00         XY= -0.49943365E+00         XZ= -0.44224231E+00
                YY=  0.12448334E+01         YZ= -0.11375507E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8643438E-03 Y=  0.3806366E-08 Z=  0.4611431E-02  Total=      0.0046917
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154742E+02         XY=  0.43217171E-02         XZ=  0.26884549E-01
                YY= -0.10161239E+02         YZ=  0.23057155E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70043766E-01 Y= -0.18191722E-11 Z= -0.19448469E-07   Total=     0.07004377
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.78800703E-01         XY= -0.66181768E+00         XZ= -0.58603012E+00
                YY=  0.12448341E+01         YZ= -0.18377995E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4700116E-02 Y=  0.3810773E-08 Z=  0.4611530E-02  Total=      0.0065846
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210386E+02         XY= -0.23500582E-01         XZ=  0.22436973E-02
                YY= -0.10161239E+02         YZ=  0.23057648E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60579989E-01 Y= -0.91468914E-11 Z=  0.11458935E-06   Total=     0.06057999
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10003719E+00         XY= -0.57239794E+00         XZ= -0.50684891E+00
                YY=  0.12448340E+01         YZ=  0.10826324E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8476406E-02 Y=  0.3809545E-08 Z=  0.4611760E-02  Total=      0.0096498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248149E+02         XY= -0.42382033E-01         XZ= -0.14477861E-01
                YY= -0.10161239E+02         YZ=  0.23058797E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28067146E-01 Y= -0.11581063E-10 Z=  0.94985889E-07   Total=     0.02806715
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71444030E+00         XY= -0.26519609E+00         XZ= -0.23482614E+00
                YY=  0.12448332E+01         YZ=  0.89738599E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9027747E-02 Y=  0.3809834E-08 Z=  0.4611804E-02  Total=      0.0101375
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253663E+02         XY= -0.45138739E-01         XZ= -0.16919149E-01
                YY= -0.10161239E+02         YZ=  0.23059020E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15124534E-01 Y= -0.80123513E-11 Z= -0.52569310E-07   Total=     0.01512453
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15306460E+01         XY=  0.14290614E+00         XZ=  0.12654128E+00
                YY=  0.12448328E+01         YZ= -0.49677884E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6144364E-02 Y=  0.3808967E-08 Z=  0.4611602E-02  Total=      0.0076825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224829E+02         XY= -0.30721821E-01         XZ= -0.41515132E-02
                YY= -0.10161239E+02         YZ=  0.23058010E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52561816E-01 Y=  0.17846250E-12 Z= -0.12503459E-06   Total=     0.05256182
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22381094E+01         XY=  0.49663718E+00         XZ=  0.43976447E+00
                YY=  0.12448334E+01         YZ= -0.11814079E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9232958E-03 Y=  0.3808534E-08 Z=  0.4611432E-02  Total=      0.0047030
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172618E+02         XY= -0.46164812E-02         XZ=  0.18968359E-01
                YY= -0.10161239E+02         YZ=  0.23057159E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70000847E-01 Y=  0.97470343E-11 Z= -0.21729353E-07   Total=     0.07000085
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25676589E+01         XY=  0.66141215E+00         XZ=  0.58567134E+00
                YY=  0.12448341E+01         YZ= -0.20523450E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4648990E-02 Y=  0.3815180E-08 Z=  0.4611528E-02  Total=      0.0065482
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116895E+02         XY=  0.23244949E-01         XZ=  0.43644877E-01
                YY= -0.10161239E+02         YZ=  0.23057640E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60806550E-01 Y=  0.16970132E-10 Z=  0.11654139E-06   Total=     0.06080655
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23939103E+01         XY=  0.57453864E+00         XZ=  0.50874733E+00
                YY=  0.12448340E+01         YZ=  0.11012956E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8452399E-02 Y=  0.3816769E-08 Z=  0.4611759E-02  Total=      0.0096287
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078861E+02         XY=  0.42261991E-01         XZ=  0.60488860E-01
                YY= -0.10161239E+02         YZ=  0.23058792E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28477095E-01 Y=  0.19188277E-10 Z=  0.10072140E-06   Total=     0.02847709
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17829716E+01         XY=  0.26906955E+00         XZ=  0.23825856E+00
                YY=  0.12448332E+01         YZ=  0.95183727E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9039843E-02 Y=  0.3817491E-08 Z=  0.4611807E-02  Total=      0.0101483
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072987E+02         XY=  0.45199213E-01         XZ=  0.63090521E-01
                YY= -0.10161239E+02         YZ=  0.23059031E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14687064E-01 Y=  0.15856532E-10 Z= -0.46768294E-07   Total=     0.01468706
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96728840E+00         XY= -0.13877264E+00         XZ= -0.12288139E+00
                YY=  0.12448328E+01         YZ= -0.44176606E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6187822E-02 Y=  0.3818647E-08 Z=  0.4611606E-02  Total=      0.0077173
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101507E+02         XY=  0.30939106E-01         XZ=  0.50459792E-01
                YY= -0.10161239E+02         YZ=  0.23058030E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52263158E-01 Y=  0.86827114E-11 Z= -0.12327685E-06   Total=     0.05226316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25720448E+00         XY= -0.49381527E+00         XZ= -0.43726738E+00
                YY=  0.12448334E+01         YZ= -0.11647271E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9814533E-03 Y=  0.3820453E-08 Z=  0.4611434E-02  Total=      0.0047147
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153571E+02         XY=  0.49072645E-02         XZ=  0.27403338E-01
                YY= -0.10161239E+02         YZ=  0.23057169E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69954520E-01 Y=  0.83443601E-12 Z= -0.24968637E-07   Total=     0.06995452
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77114180E-01         XY= -0.66097442E+00         XZ= -0.58528348E+00
                YY=  0.12448341E+01         YZ= -0.23591494E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4598378E-02 Y=  0.3826016E-08 Z=  0.4611528E-02  Total=      0.0065124
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209369E+02         XY= -0.22991891E-01         XZ=  0.26943911E-02
                YY= -0.10161239E+02         YZ=  0.23057635E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61030069E-01 Y= -0.44177164E-11 Z=  0.11059413E-06   Total=     0.06103007
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91531916E-01         XY= -0.57665058E+00         XZ= -0.51061455E+00
                YY=  0.12448340E+01         YZ=  0.10449235E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8428695E-02 Y=  0.3825727E-08 Z=  0.4611758E-02  Total=      0.0096079
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247672E+02         XY= -0.42143475E-01         XZ= -0.14266410E-01
                YY= -0.10161239E+02         YZ=  0.23058787E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28885305E-01 Y= -0.50320572E-11 Z=  0.94551236E-07   Total=     0.02888531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69897929E+00         XY= -0.27292658E+00         XZ= -0.24167129E+00
                YY=  0.12448332E+01         YZ=  0.89333505E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9052162E-02 Y=  0.3825366E-08 Z=  0.4611808E-02  Total=      0.0101593
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253907E+02         XY= -0.45260813E-01         XZ= -0.17027065E-01
                YY= -0.10161239E+02         YZ=  0.23059037E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14249585E-01 Y= -0.95531195E-12 Z= -0.52498763E-07   Total=     0.01424958
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15141118E+01         XY=  0.13463906E+00         XZ=  0.11922105E+00
                YY=  0.12448328E+01         YZ= -0.49605170E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6231562E-02 Y=  0.3824210E-08 Z=  0.4611609E-02  Total=      0.0077524
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225701E+02         XY= -0.31157814E-01         XZ= -0.45374361E-02
                YY= -0.10161239E+02         YZ=  0.23058041E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51962974E-01 Y=  0.59724403E-11 Z= -0.12842421E-06   Total=     0.05196297
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22267929E+01         XY=  0.49097895E+00         XZ=  0.43475434E+00
                YY=  0.12448334E+01         YZ= -0.12133848E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1040048E-02 Y=  0.3825293E-08 Z=  0.4611434E-02  Total=      0.0047273
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173786E+02         XY= -0.52002413E-02         XZ=  0.18451552E-01
                YY= -0.10161239E+02         YZ=  0.23057169E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69905965E-01 Y=  0.12875472E-10 Z= -0.27864993E-07   Total=     0.06990597
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25658660E+01         XY=  0.66051564E+00         XZ=  0.58487766E+00
                YY=  0.12448341E+01         YZ= -0.26317958E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4547161E-02 Y=  0.3831145E-08 Z=  0.4611525E-02  Total=      0.0064763
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117913E+02         XY=  0.22735801E-01         XZ=  0.43194135E-01
                YY= -0.10161239E+02         YZ=  0.23057622E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61251750E-01 Y=  0.17062850E-10 Z=  0.11230752E-06   Total=     0.06125175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24023234E+01         XY=  0.57874516E+00         XZ=  0.51247232E+00
                YY=  0.12448340E+01         YZ=  0.10612943E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8404292E-02 Y=  0.3831940E-08 Z=  0.4611756E-02  Total=      0.0095865
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079342E+02         XY=  0.42021457E-01         XZ=  0.60276032E-01
                YY= -0.10161239E+02         YZ=  0.23058777E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29293020E-01 Y=  0.17087423E-10 Z=  0.10081882E-06   Total=     0.02929302
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17983903E+01         XY=  0.27677893E+00         XZ=  0.24508527E+00
                YY=  0.12448332E+01         YZ=  0.95274233E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9063822E-02 Y=  0.3833529E-08 Z=  0.4611809E-02  Total=      0.0101696
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072747E+02         XY=  0.45319107E-01         XZ=  0.63196948E-01
                YY= -0.10161240E+02         YZ=  0.23059044E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13810811E-01 Y=  0.13224378E-10 Z= -0.45317467E-07   Total=     0.01381081
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.98384712E+00         XY= -0.13049325E+00         XZ= -0.11555000E+00
                YY=  0.12448328E+01         YZ= -0.42807764E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6274825E-02 Y=  0.3835552E-08 Z=  0.4611612E-02  Total=      0.0077872
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100637E+02         XY=  0.31374124E-01         XZ=  0.50845334E-01
                YY= -0.10161239E+02         YZ=  0.23058057E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51659933E-01 Y=  0.72242985E-11 Z= -0.12475622E-06   Total=     0.05165993
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26860374E+00         XY= -0.48811563E+00         XZ= -0.43222041E+00
                YY=  0.12448333E+01         YZ= -0.11787153E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1098444E-02 Y=  0.3837791E-08 Z=  0.4611436E-02  Total=      0.0047405
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152401E+02         XY=  0.54922191E-02         XZ=  0.27921655E-01
                YY= -0.10161239E+02         YZ=  0.23057177E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69853809E-01 Y=  0.15028337E-11 Z= -0.29222471E-07   Total=     0.06985381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75211023E-01         XY= -0.66002285E+00         XZ= -0.58444096E+00
                YY=  0.12448341E+01         YZ= -0.27610004E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4495845E-02 Y=  0.3844220E-08 Z=  0.4611524E-02  Total=      0.0064404
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208343E+02         XY= -0.22479229E-01         XZ=  0.31486504E-02
                YY= -0.10161239E+02         YZ=  0.23057616E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61470184E-01 Y= -0.18528196E-11 Z=  0.10770048E-06   Total=     0.06147018
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83214962E-01         XY= -0.58080907E+00         XZ= -0.51429697E+00
                YY=  0.12448340E+01         YZ=  0.10176063E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8379566E-02 Y=  0.3844220E-08 Z=  0.4611754E-02  Total=      0.0095648
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247181E+02         XY= -0.41897831E-01         XZ= -0.14048643E-01
                YY= -0.10161240E+02         YZ=  0.23058769E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29698804E-01 Y= -0.18457071E-11 Z=  0.95193869E-07   Total=     0.02969880
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68360637E+00         XY= -0.28061303E+00         XZ= -0.24847767E+00
                YY=  0.12448332E+01         YZ=  0.89943621E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9075065E-02 Y=  0.3844148E-08 Z=  0.4611810E-02  Total=      0.0101797
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254136E+02         XY= -0.45375325E-01         XZ= -0.17128256E-01
                YY= -0.10161240E+02         YZ=  0.23059048E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13372195E-01 Y=  0.11759294E-11 Z= -0.51251223E-07   Total=     0.01337219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14975315E+01         XY=  0.12634893E+00         XZ=  0.11188011E+00
                YY=  0.12448328E+01         YZ= -0.48424381E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6317720E-02 Y=  0.3844798E-08 Z=  0.4611614E-02  Total=      0.0078218
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226562E+02         XY= -0.31588600E-01         XZ= -0.49187335E-02
                YY= -0.10161240E+02         YZ=  0.23058066E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51355493E-01 Y=  0.58115940E-11 Z= -0.13058779E-06   Total=     0.05135549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22153132E+01         XY=  0.48523909E+00         XZ=  0.42967161E+00
                YY=  0.12448333E+01         YZ= -0.12338266E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1156619E-02 Y=  0.3845376E-08 Z=  0.4611435E-02  Total=      0.0047543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174951E+02         XY= -0.57830956E-02         XZ=  0.17935547E-01
                YY= -0.10161239E+02         YZ=  0.23057175E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69799508E-01 Y=  0.10259040E-10 Z= -0.32891755E-07   Total=     0.06979951
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25638542E+01         XY=  0.65950977E+00         XZ=  0.58398681E+00
                YY=  0.12448341E+01         YZ= -0.31069526E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4444588E-02 Y=  0.3850794E-08 Z=  0.4611520E-02  Total=      0.0064047
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118939E+02         XY=  0.22222939E-01         XZ=  0.42740086E-01
                YY= -0.10161240E+02         YZ=  0.23057600E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61686819E-01 Y=  0.13020168E-10 Z=  0.10897527E-06   Total=     0.06168682
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24105450E+01         XY=  0.58285597E+00         XZ=  0.51611228E+00
                YY=  0.12448340E+01         YZ=  0.10297773E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8354804E-02 Y=  0.3851878E-08 Z=  0.4611752E-02  Total=      0.0095431
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079837E+02         XY=  0.41774018E-01         XZ=  0.60057059E-01
                YY= -0.10161240E+02         YZ=  0.23058756E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30104093E-01 Y=  0.13383027E-10 Z=  0.10168576E-06   Total=     0.03010409
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18137173E+01         XY=  0.28444246E+00         XZ=  0.25187120E+00
                YY=  0.12448332E+01         YZ=  0.96090447E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9086308E-02 Y=  0.3853395E-08 Z=  0.4611811E-02  Total=      0.0101897
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072522E+02         XY=  0.45431540E-01         XZ=  0.63296730E-01
                YY= -0.10161240E+02         YZ=  0.23059052E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12932310E-01 Y=  0.11537538E-10 Z= -0.43082179E-07   Total=     0.01293231
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10004483E+01         XY= -0.12219262E+00         XZ= -0.10819987E+00
                YY=  0.12448328E+01         YZ= -0.40696984E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6360793E-02 Y=  0.3853467E-08 Z=  0.4611617E-02  Total=      0.0078566
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099777E+02         XY=  0.31803961E-01         XZ=  0.51226245E-01
                YY= -0.10161240E+02         YZ=  0.23058081E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51048235E-01 Y=  0.83548246E-11 Z= -0.12533478E-06   Total=     0.05104824
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28016312E+00         XY= -0.48233592E+00         XZ= -0.42710253E+00
                YY=  0.12448333E+01         YZ= -0.11841711E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1215247E-02 Y=  0.3853901E-08 Z=  0.4611437E-02  Total=      0.0047689
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151232E+02         XY=  0.60762317E-02         XZ=  0.28439096E-01
                YY= -0.10161240E+02         YZ=  0.23057182E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69741644E-01 Y=  0.49809767E-11 Z= -0.32385328E-07   Total=     0.06974164
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73091394E-01         XY= -0.65896303E+00         XZ= -0.58350251E+00
                YY=  0.12448340E+01         YZ= -0.30595452E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4392586E-02 Y=  0.3859608E-08 Z=  0.4611519E-02  Total=      0.0063687
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207311E+02         XY= -0.21962930E-01         XZ=  0.36060914E-02
                YY= -0.10161240E+02         YZ=  0.23057593E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61900232E-01 Y=  0.24355786E-11 Z=  0.10622613E-06   Total=     0.06190023
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75088246E-01         XY= -0.58487243E+00         XZ= -0.51789503E+00
                YY=  0.12448340E+01         YZ=  0.10037125E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8329075E-02 Y=  0.3858813E-08 Z=  0.4611750E-02  Total=      0.0095206
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246676E+02         XY= -0.41645376E-01         XZ= -0.13824882E-01
                YY= -0.10161240E+02         YZ=  0.23058749E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30507457E-01 Y=  0.13501584E-11 Z=  0.97767735E-07   Total=     0.03050746
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.66832502E+00         XY= -0.28825370E+00         XZ= -0.25524338E+00
                YY=  0.12448332E+01         YZ=  0.92378316E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9096493E-02 Y=  0.3858307E-08 Z=  0.4611812E-02  Total=      0.0101988
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254350E+02         XY= -0.45482468E-01         XZ= -0.17222956E-01
                YY= -0.10161240E+02         YZ=  0.23059056E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12492591E-01 Y=  0.18826188E-11 Z= -0.47492194E-07   Total=     0.01249259
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14809093E+01         XY=  0.11803787E+00         XZ=  0.10452073E+00
                YY=  0.12448328E+01         YZ= -0.44871965E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6402856E-02 Y=  0.3858885E-08 Z=  0.4611619E-02  Total=      0.0078907
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227414E+02         XY= -0.32014284E-01         XZ= -0.52955465E-02
                YY= -0.10161240E+02         YZ=  0.23058091E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50739590E-01 Y=  0.37669032E-11 Z= -0.12981981E-06   Total=     0.05073959
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22036742E+01         XY=  0.47941964E+00         XZ=  0.42451842E+00
                YY=  0.12448333E+01         YZ= -0.12265868E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1273014E-02 Y=  0.3859824E-08 Z=  0.4611437E-02  Total=      0.0047839
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176115E+02         XY= -0.63650724E-02         XZ=  0.17420281E-01
                YY= -0.10161240E+02         YZ=  0.23057182E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69681631E-01 Y=  0.64245796E-11 Z= -0.34859892E-07   Total=     0.06968163
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25616267E+01         XY=  0.65839600E+00         XZ=  0.58300035E+00
                YY=  0.12448340E+01         YZ= -0.32932310E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4341276E-02 Y=  0.3864881E-08 Z=  0.4611516E-02  Total=      0.0063335
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119972E+02         XY=  0.21706378E-01         XZ=  0.42282718E-01
                YY= -0.10161240E+02         YZ=  0.23057580E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62111811E-01 Y=  0.90913635E-11 Z=  0.10861523E-06   Total=     0.06211181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24185762E+01         XY=  0.58687157E+00         XZ=  0.51966778E+00
                YY=  0.12448340E+01         YZ=  0.10263428E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8303938E-02 Y=  0.3863437E-08 Z=  0.4611748E-02  Total=      0.0094986
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080346E+02         XY=  0.41519688E-01         XZ=  0.59831930E-01
                YY= -0.10161240E+02         YZ=  0.23058739E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30910250E-01 Y=  0.10954361E-10 Z=  0.10539856E-06   Total=     0.03091025
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18289515E+01         XY=  0.29205954E+00         XZ=  0.25861579E+00
                YY=  0.12448332E+01         YZ=  0.99596530E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9107297E-02 Y=  0.3862064E-08 Z=  0.4611813E-02  Total=      0.0102084
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072312E+02         XY=  0.45536481E-01         XZ=  0.63389813E-01
                YY= -0.10161240E+02         YZ=  0.23059063E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12051722E-01 Y=  0.11318913E-10 Z= -0.38092056E-07   Total=     0.01205172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10170890E+01         XY= -0.11387227E+00         XZ= -0.10083252E+00
                YY=  0.12448328E+01         YZ= -0.35982162E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6445703E-02 Y=  0.3862786E-08 Z=  0.4611622E-02  Total=      0.0079255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098928E+02         XY=  0.32228512E-01         XZ=  0.51602403E-01
                YY= -0.10161240E+02         YZ=  0.23058110E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50428276E-01 Y=  0.98099254E-11 Z= -0.12325864E-06   Total=     0.05042828
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29187860E+00         XY= -0.47647816E+00         XZ= -0.42191576E+00
                YY=  0.12448333E+01         YZ= -0.11645421E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1331824E-02 Y=  0.3864592E-08 Z=  0.4611439E-02  Total=      0.0047999
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150067E+02         XY=  0.66591190E-02         XZ=  0.28955462E-01
                YY= -0.10161240E+02         YZ=  0.23057194E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69618218E-01 Y=  0.65596323E-11 Z= -0.33020395E-07   Total=     0.06961822
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.70758986E-01         XY= -0.65779683E+00         XZ= -0.58247003E+00
                YY=  0.12448340E+01         YZ= -0.31194148E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4288646E-02 Y=  0.3870661E-08 Z=  0.4611516E-02  Total=      0.0062975
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206271E+02         XY= -0.21443234E-01         XZ=  0.40664575E-02
                YY= -0.10161240E+02         YZ=  0.23057579E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62320324E-01 Y=  0.22894174E-11 Z=  0.10721279E-06   Total=     0.06232032
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67149654E-01         XY= -0.58884173E+00         XZ= -0.52140988E+00
                YY=  0.12448340E+01         YZ=  0.10130345E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8277273E-02 Y=  0.3871600E-08 Z=  0.4611748E-02  Total=      0.0094753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246158E+02         XY= -0.41386365E-01         XZ= -0.13595398E-01
                YY= -0.10161240E+02         YZ=  0.23058737E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31311251E-01 Y= -0.18062303E-11 Z=  0.10286710E-06   Total=     0.03131125
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65313548E+00         XY= -0.29584845E+00         XZ= -0.26196843E+00
                YY=  0.12448332E+01         YZ=  0.97193990E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9116491E-02 Y=  0.3872105E-08 Z=  0.4611815E-02  Total=      0.0102166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254550E+02         XY= -0.45582457E-01         XZ= -0.17311400E-01
                YY= -0.10161240E+02         YZ=  0.23059074E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11610913E-01 Y= -0.44039199E-11 Z= -0.41105526E-07   Total=     0.01161091
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14642479E+01         XY=  0.10970723E+00         XZ=  0.97144115E-01
                YY=  0.12448328E+01         YZ= -0.38842546E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6486999E-02 Y=  0.3871094E-08 Z=  0.4611626E-02  Total=      0.0079592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228255E+02         XY= -0.32434999E-01         XZ= -0.56680299E-02
                YY= -0.10161240E+02         YZ=  0.23058127E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50115493E-01 Y= -0.45405728E-11 Z= -0.12648628E-06   Total=     0.05011549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21918805E+01         XY=  0.47352278E+00         XZ=  0.41929689E+00
                YY=  0.12448333E+01         YZ= -0.11951572E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1389241E-02 Y=  0.3870227E-08 Z=  0.4611441E-02  Total=      0.0048162
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177277E+02         XY= -0.69462062E-02         XZ=  0.16905703E-01
                YY= -0.10161240E+02         YZ=  0.23057201E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69552586E-01 Y= -0.20654604E-11 Z= -0.34573461E-07   Total=     0.06955259
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25591881E+01         XY=  0.65717669E+00         XZ=  0.58192068E+00
                YY=  0.12448340E+01         YZ= -0.32668579E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4237235E-02 Y=  0.3874417E-08 Z=  0.4611515E-02  Total=      0.0062626
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121012E+02         XY=  0.21186173E-01         XZ=  0.41822075E-01
                YY= -0.10161240E+02         YZ=  0.23057573E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62526934E-01 Y=  0.21610481E-11 Z=  0.11009928E-06   Total=     0.06252693
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24264209E+01         XY=  0.59079390E+00         XZ=  0.52314095E+00
                YY=  0.12448340E+01         YZ=  0.10403091E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8251717E-02 Y=  0.3874128E-08 Z=  0.4611747E-02  Total=      0.0094530
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080868E+02         XY=  0.41258581E-01         XZ=  0.59600761E-01
                YY= -0.10161240E+02         YZ=  0.23058733E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31711606E-01 Y=  0.64664374E-11 Z=  0.11068333E-06   Total=     0.03171161
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18440949E+01         XY=  0.29963126E+00         XZ=  0.26532042E+00
                YY=  0.12448332E+01         YZ=  0.10458635E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9126812E-02 Y=  0.3874562E-08 Z=  0.4611818E-02  Total=      0.0102258
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072117E+02         XY=  0.45634060E-01         XZ=  0.63476345E-01
                YY= -0.10161240E+02         YZ=  0.23059087E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11169033E-01 Y=  0.89500384E-11 Z= -0.31571900E-07   Total=     0.01116903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10337693E+01         XY= -0.10553207E+00         XZ= -0.93447456E-01
                YY=  0.12448328E+01         YZ= -0.29823291E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6529578E-02 Y=  0.3874489E-08 Z=  0.4611631E-02  Total=      0.0079939
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098089E+02         XY=  0.32647887E-01         XZ=  0.51973950E-01
                YY= -0.10161240E+02         YZ=  0.23058152E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49800119E-01 Y=  0.82546521E-11 Z= -0.11957034E-06   Total=     0.04980012
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30374904E+00         XY= -0.47054293E+00         XZ= -0.41666035E+00
                YY=  0.12448333E+01         YZ= -0.11297035E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1448190E-02 Y=  0.3875140E-08 Z=  0.4611444E-02  Total=      0.0048335
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148903E+02         XY=  0.72409504E-02         XZ=  0.29470864E-01
                YY= -0.10161240E+02         YZ=  0.23057220E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69483625E-01 Y=  0.42104872E-11 Z= -0.31989215E-07   Total=     0.06948363
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.68215536E-01         XY= -0.65652511E+00         XZ= -0.58134417E+00
                YY=  0.12448340E+01         YZ= -0.30221533E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4184022E-02 Y=  0.3880485E-08 Z=  0.4611516E-02  Total=      0.0062267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205225E+02         XY= -0.20920114E-01         XZ=  0.45298218E-02
                YY= -0.10161240E+02         YZ=  0.23057579E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62730550E-01 Y= -0.19518023E-11 Z=  0.10982357E-06   Total=     0.06273055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59397551E-01         XY= -0.59271779E+00         XZ= -0.52484234E+00
                YY=  0.12448340E+01         YZ=  0.10376702E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8224161E-02 Y=  0.3880341E-08 Z=  0.4611748E-02  Total=      0.0094289
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245627E+02         XY= -0.41120807E-01         XZ= -0.13360159E-01
                YY= -0.10161240E+02         YZ=  0.23058739E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32110259E-01 Y= -0.79695492E-11 Z=  0.10942820E-06   Total=     0.03211026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.63803642E+00         XY= -0.30339798E+00         XZ= -0.26865369E+00
                YY=  0.12448332E+01         YZ=  0.10338847E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9135066E-02 Y=  0.3880485E-08 Z=  0.4611822E-02  Total=      0.0102332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254736E+02         XY= -0.45675332E-01         XZ= -0.17393599E-01
                YY= -0.10161240E+02         YZ=  0.23059106E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10727083E-01 Y= -0.11402088E-10 Z= -0.33610013E-07   Total=     0.01072708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14475459E+01         XY=  0.10135624E+00         XZ=  0.89749159E-01
                YY=  0.12448328E+01         YZ= -0.31765879E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6570164E-02 Y=  0.3880269E-08 Z=  0.4611636E-02  Total=      0.0080271
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229086E+02         XY= -0.32850821E-01         XZ= -0.60362506E-02
                YY= -0.10161240E+02         YZ=  0.23058178E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49483075E-01 Y= -0.10646541E-10 Z= -0.12265703E-06   Total=     0.04948307
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21799295E+01         XY=  0.46754730E+00         XZ=  0.41400536E+00
                YY=  0.12448333E+01         YZ= -0.11590246E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1505327E-02 Y=  0.3879402E-08 Z=  0.4611448E-02  Total=      0.0048509
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178438E+02         XY= -0.75266348E-02         XZ=  0.16391665E-01
                YY= -0.10161240E+02         YZ=  0.23057236E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69412158E-01 Y= -0.56863429E-11 Z= -0.34586969E-07   Total=     0.06941216
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25565344E+01         XY=  0.65584985E+00         XZ=  0.58074544E+00
                YY=  0.12448340E+01         YZ= -0.32684161E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4132419E-02 Y=  0.3883086E-08 Z=  0.4611517E-02  Total=      0.0061922
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122061E+02         XY=  0.20662092E-01         XZ=  0.41357901E-01
                YY= -0.10161240E+02         YZ=  0.23057581E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62931883E-01 Y=  0.17789025E-11 Z=  0.11055364E-06   Total=     0.06293188
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24340734E+01         XY=  0.59462012E+00         XZ=  0.52652871E+00
                YY=  0.12448340E+01         YZ=  0.10446007E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8198069E-02 Y=  0.3882219E-08 Z=  0.4611749E-02  Total=      0.0094062
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081404E+02         XY=  0.40990345E-01         XZ=  0.59363168E-01
                YY= -0.10161240E+02         YZ=  0.23058741E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32507812E-01 Y=  0.89277875E-11 Z=  0.11450082E-06   Total=     0.03250781
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18591410E+01         XY=  0.30715430E+00         XZ=  0.27198177E+00
                YY=  0.12448333E+01         YZ=  0.10819558E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9144761E-02 Y=  0.3881569E-08 Z=  0.4611825E-02  Total=      0.0102419
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071937E+02         XY=  0.45723803E-01         XZ=  0.63555823E-01
                YY= -0.10161240E+02         YZ=  0.23059124E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10284556E-01 Y=  0.12930946E-10 Z= -0.26671227E-07   Total=     0.01028456
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10504835E+01         XY= -0.97174973E-01         XZ= -0.86047475E-01
                YY=  0.12448328E+01         YZ= -0.25189319E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6612305E-02 Y=  0.3882653E-08 Z=  0.4611642E-02  Total=      0.0080616
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097262E+02         XY=  0.33061524E-01         XZ=  0.52340304E-01
                YY= -0.10161240E+02         YZ=  0.23058207E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49163935E-01 Y=  0.12140442E-10 Z= -0.11758487E-06   Total=     0.04916393
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31577118E+00         XY= -0.46453186E+00         XZ= -0.41133768E+00
                YY=  0.12448333E+01         YZ= -0.11109090E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1564230E-02 Y=  0.3884531E-08 Z=  0.4611452E-02  Total=      0.0048695
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147742E+02         XY=  0.78211472E-02         XZ=  0.29984717E-01
                YY= -0.10161240E+02         YZ=  0.23057259E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69337819E-01 Y=  0.68431252E-11 Z= -0.32864461E-07   Total=     0.06933782
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.65460148E-01         XY= -0.65514745E+00         XZ= -0.58012425E+00
                YY=  0.12448341E+01         YZ= -0.31046115E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4078814E-02 Y=  0.3890744E-08 Z=  0.4611518E-02  Total=      0.0061565
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204173E+02         XY= -0.20394074E-01         XZ=  0.49956834E-02
                YY= -0.10161240E+02         YZ=  0.23057590E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63130616E-01 Y= -0.76992438E-12 Z=  0.11021698E-06   Total=     0.06313062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51837460E-01         XY= -0.59649787E+00         XZ= -0.52818946E+00
                YY=  0.12448340E+01         YZ=  0.10413992E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8169807E-02 Y=  0.3891683E-08 Z=  0.4611750E-02  Total=      0.0093816
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245083E+02         XY= -0.40849039E-01         XZ= -0.13119496E-01
                YY= -0.10161240E+02         YZ=  0.23058750E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32903987E-01 Y= -0.74436101E-11 Z=  0.11349552E-06   Total=     0.03290399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62303716E+00         XY= -0.31089762E+00         XZ= -0.27529437E+00
                YY=  0.12448333E+01         YZ=  0.10723214E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9152242E-02 Y=  0.3890816E-08 Z=  0.4611830E-02  Total=      0.0102485
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254907E+02         XY= -0.45761210E-01         XZ= -0.17469659E-01
                YY= -0.10161240E+02         YZ=  0.23059146E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.98416888E-02 Y= -0.10188989E-10 Z= -0.28772097E-07   Total=     0.00984169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14308144E+01         XY=  0.92990482E-01         XZ=  0.82341545E-01
                YY=  0.12448329E+01         YZ= -0.27193559E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6652328E-02 Y=  0.3889082E-08 Z=  0.4611648E-02  Total=      0.0080945
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229908E+02         XY= -0.33261641E-01         XZ= -0.64000814E-02
                YY= -0.10161240E+02         YZ=  0.23058236E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48842887E-01 Y= -0.75521095E-11 Z= -0.12157995E-06   Total=     0.04884289
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21678317E+01         XY=  0.46149840E+00         XZ=  0.40864921E+00
                YY=  0.12448333E+01         YZ= -0.11488206E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1621212E-02 Y=  0.3888143E-08 Z=  0.4611456E-02  Total=      0.0048881
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179597E+02         XY= -0.81060622E-02         XZ=  0.15878486E-01
                YY= -0.10161240E+02         YZ=  0.23057278E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69260744E-01 Y= -0.27919689E-12 Z= -0.37421411E-07   Total=     0.06926074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25536731E+01         XY=  0.65441919E+00         XZ=  0.57947856E+00
                YY=  0.12448341E+01         YZ= -0.35357688E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4026907E-02 Y=  0.3893416E-08 Z=  0.4611519E-02  Total=      0.0061223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123116E+02         XY=  0.20134535E-01         XZ=  0.40890629E-01
                YY= -0.10161240E+02         YZ=  0.23057594E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63326827E-01 Y=  0.89259585E-11 Z=  0.10819625E-06   Total=     0.06332683
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24415368E+01         XY=  0.59835180E+00         XZ=  0.52983291E+00
                YY=  0.12448341E+01         YZ=  0.10223876E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8143078E-02 Y=  0.3893705E-08 Z=  0.4611751E-02  Total=      0.0093583
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081954E+02         XY=  0.40715388E-01         XZ=  0.59119608E-01
                YY= -0.10161240E+02         YZ=  0.23058754E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33298807E-01 Y=  0.16476942E-10 Z=  0.11566063E-06   Total=     0.03329881
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18740887E+01         XY=  0.31462813E+00         XZ=  0.27859951E+00
                YY=  0.12448333E+01         YZ=  0.10929791E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9161210E-02 Y=  0.3894283E-08 Z=  0.4611833E-02  Total=      0.0102565
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071773E+02         XY=  0.45806048E-01         XZ=  0.63628639E-01
                YY= -0.10161240E+02         YZ=  0.23059164E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.93985182E-02 Y=  0.19376808E-10 Z= -0.24187310E-07   Total=     0.00939852
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10672272E+01         XY= -0.88803127E-01         XZ= -0.78634649E-01
                YY=  0.12448329E+01         YZ= -0.22836789E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6693929E-02 Y=  0.3894789E-08 Z=  0.4611653E-02  Total=      0.0081287
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096445E+02         XY=  0.33469641E-01         XZ=  0.52701735E-01
                YY= -0.10161240E+02         YZ=  0.23058265E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48520032E-01 Y=  0.16475013E-10 Z= -0.11785251E-06   Total=     0.04852003
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32793920E+00         XY= -0.45844786E+00         XZ= -0.40595083E+00
                YY=  0.12448333E+01         YZ= -0.11133996E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1679959E-02 Y=  0.3896089E-08 Z=  0.4611460E-02  Total=      0.0049079
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146585E+02         XY=  0.83997952E-02         XZ=  0.30497144E-01
                YY= -0.10161240E+02         YZ=  0.23057300E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69181104E-01 Y=  0.89720544E-11 Z= -0.35999892E-07   Total=     0.06918110
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.62498613E-01         XY= -0.65366670E+00         XZ= -0.57881362E+00
                YY=  0.12448341E+01         YZ= -0.34006692E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3973029E-02 Y=  0.3901652E-08 Z=  0.4611521E-02  Total=      0.0060870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203115E+02         XY= -0.19865145E-01         XZ=  0.54640246E-02
                YY= -0.10161240E+02         YZ=  0.23057603E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63520775E-01 Y= -0.50725029E-13 Z=  0.10825356E-06   Total=     0.06352078
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44464567E-01         XY= -0.60018434E+00         XZ= -0.53145433E+00
                YY=  0.12448341E+01         YZ=  0.10228555E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8114237E-02 Y=  0.3901291E-08 Z=  0.4611753E-02  Total=      0.0093332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244527E+02         XY= -0.40571188E-01         XZ= -0.12873551E-01
                YY= -0.10161240E+02         YZ=  0.23058761E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33692631E-01 Y= -0.68895502E-11 Z=  0.11516181E-06   Total=     0.03369263
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.60813396E+00         XY= -0.31834923E+00         XZ= -0.28189315E+00
                YY=  0.12448334E+01         YZ=  0.10880721E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9168057E-02 Y=  0.3900929E-08 Z=  0.4611837E-02  Total=      0.0102627
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255065E+02         XY= -0.45840288E-01         XZ= -0.17539828E-01
                YY= -0.10161240E+02         YZ=  0.23059184E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.89545685E-02 Y= -0.87435926E-11 Z= -0.26304360E-07   Total=     0.00895457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14140503E+01         XY=  0.84608411E-01         XZ=  0.74918945E-01
                YY=  0.12448329E+01         YZ= -0.24860491E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6733543E-02 Y=  0.3900135E-08 Z=  0.4611659E-02  Total=      0.0081614
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230720E+02         XY= -0.33667718E-01         XZ= -0.67598616E-02
                YY= -0.10161240E+02         YZ=  0.23058292E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48194773E-01 Y= -0.48705511E-11 Z= -0.12286675E-06   Total=     0.04819477
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21555841E+01         XY=  0.45537461E+00         XZ=  0.40322639E+00
                YY=  0.12448333E+01         YZ= -0.11609548E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1736962E-02 Y=  0.3900279E-08 Z=  0.4611464E-02  Total=      0.0049277
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180754E+02         XY= -0.86848114E-02         XZ=  0.15365750E-01
                YY= -0.10161240E+02         YZ=  0.23057317E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69098191E-01 Y=  0.31121055E-11 Z= -0.42687031E-07   Total=     0.06909819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25506014E+01         XY=  0.65288329E+00         XZ=  0.57811837E+00
                YY=  0.12448341E+01         YZ= -0.40329941E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3920625E-02 Y=  0.3906781E-08 Z=  0.4611521E-02  Total=      0.0060529
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124178E+02         XY=  0.19603125E-01         XZ=  0.40419789E-01
                YY= -0.10161240E+02         YZ=  0.23057604E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63711659E-01 Y=  0.11902082E-10 Z=  0.10336635E-06   Total=     0.06371166
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24488091E+01         XY=  0.60198793E+00         XZ=  0.53305267E+00
                YY=  0.12448341E+01         YZ=  0.97677864E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8086662E-02 Y=  0.3909165E-08 Z=  0.4611753E-02  Total=      0.0093093
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082518E+02         XY=  0.40433310E-01         XZ=  0.58869596E-01
                YY= -0.10161240E+02         YZ=  0.23058761E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34084599E-01 Y=  0.17878746E-10 Z=  0.11445186E-06   Total=     0.03408460
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18889380E+01         XY=  0.32205279E+00         XZ=  0.28517413E+00
                YY=  0.12448334E+01         YZ=  0.10815717E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9176087E-02 Y=  0.3909960E-08 Z=  0.4611840E-02  Total=      0.0102698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071624E+02         XY=  0.45880431E-01         XZ=  0.63694371E-01
                YY= -0.10161240E+02         YZ=  0.23059197E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.85107259E-02 Y=  0.18588838E-10 Z= -0.23872371E-07   Total=     0.00851073
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10840040E+01         XY= -0.80414706E-01         XZ= -0.71206505E-01
                YY=  0.12448329E+01         YZ= -0.22539671E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6774400E-02 Y=  0.3910826E-08 Z=  0.4611664E-02  Total=      0.0081951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095641E+02         XY=  0.33871998E-01         XZ=  0.53057975E-01
                YY= -0.10161240E+02         YZ=  0.23058316E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47867989E-01 Y=  0.13733138E-10 Z= -0.12019462E-06   Total=     0.04786799
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34026100E+00         XY= -0.45228694E+00         XZ= -0.40049509E+00
                YY=  0.12448333E+01         YZ= -0.11355504E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1795374E-02 Y=  0.3911693E-08 Z=  0.4611467E-02  Total=      0.0049486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145431E+02         XY=  0.89768665E-02         XZ=  0.31008122E-01
                YY= -0.10161240E+02         YZ=  0.23057334E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69012851E-01 Y=  0.52563273E-11 Z= -0.41345088E-07   Total=     0.06901285
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.59319071E-01         XY= -0.65207694E+00         XZ= -0.57740562E+00
                YY=  0.12448341E+01         YZ= -0.39060106E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3866615E-02 Y=  0.3916750E-08 Z=  0.4611522E-02  Total=      0.0060180
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202051E+02         XY= -0.19333075E-01         XZ=  0.59351281E-02
                YY= -0.10161240E+02         YZ=  0.23057608E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63900281E-01 Y= -0.34821472E-11 Z=  0.10382911E-06   Total=     0.06390028
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37292967E-01         XY= -0.60377015E+00         XZ= -0.53462932E+00
                YY=  0.12448341E+01         YZ=  0.98102328E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8057339E-02 Y=  0.3917328E-08 Z=  0.4611753E-02  Total=      0.0092838
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243958E+02         XY= -0.40286698E-01         XZ= -0.12621718E-01
                YY= -0.10161240E+02         YZ=  0.23058763E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34475467E-01 Y= -0.90952988E-11 Z=  0.11425415E-06   Total=     0.03447547
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59334048E+00         XY= -0.32574596E+00         XZ= -0.28844275E+00
                YY=  0.12448334E+01         YZ=  0.10794786E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9182350E-02 Y=  0.3916606E-08 Z=  0.4611843E-02  Total=      0.0102754
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255208E+02         XY= -0.45911750E-01         XZ= -0.17603225E-01
                YY= -0.10161240E+02         YZ=  0.23059212E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.80662681E-02 Y= -0.95335405E-11 Z= -0.26221668E-07   Total=     0.00806627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13972638E+01         XY=  0.76215188E-01         XZ=  0.67486814E-01
                YY=  0.12448329E+01         YZ= -0.24782958E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6813614E-02 Y=  0.3914872E-08 Z=  0.4611668E-02  Total=      0.0082276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231521E+02         XY= -0.34068074E-01         XZ= -0.71145385E-02
                YY= -0.10161240E+02         YZ=  0.23058338E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47538977E-01 Y= -0.48703137E-11 Z= -0.12607208E-06   Total=     0.04753898
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21431913E+01         XY=  0.44917823E+00         XZ=  0.39773935E+00
                YY=  0.12448333E+01         YZ= -0.11912406E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1852375E-02 Y=  0.3914222E-08 Z=  0.4611470E-02  Total=      0.0049696
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181908E+02         XY= -0.92618754E-02         XZ=  0.14854538E-01
                YY= -0.10161240E+02         YZ=  0.23057346E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68924384E-01 Y=  0.27947409E-11 Z= -0.49240516E-07   Total=     0.06892438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25473169E+01         XY=  0.65124105E+00         XZ=  0.57666380E+00
                YY=  0.12448341E+01         YZ= -0.46522386E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3813751E-02 Y=  0.3919857E-08 Z=  0.4611521E-02  Total=      0.0059842
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125247E+02         XY=  0.19068755E-01         XZ=  0.39946343E-01
                YY= -0.10161240E+02         YZ=  0.23057603E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64085927E-01 Y=  0.10242808E-10 Z=  0.97946415E-07   Total=     0.06408593
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24558818E+01         XY=  0.60552425E+00         XZ=  0.53618357E+00
                YY=  0.12448341E+01         YZ=  0.92555309E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8028955E-02 Y=  0.3920073E-08 Z=  0.4611752E-02  Total=      0.0092592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083095E+02         XY=  0.40144771E-01         XZ=  0.58613854E-01
                YY= -0.10161240E+02         YZ=  0.23058756E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34864494E-01 Y=  0.14457454E-10 Z=  0.11330835E-06   Total=     0.03486449
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19036758E+01         XY=  0.32942172E+00         XZ=  0.29169879E+00
                YY=  0.12448334E+01         YZ=  0.10707375E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9189462E-02 Y=  0.3921663E-08 Z=  0.4611844E-02  Total=      0.0102818
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071490E+02         XY=  0.45947308E-01         XZ=  0.63753418E-01
                YY= -0.10161240E+02         YZ=  0.23059219E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.76219800E-02 Y=  0.13809480E-10 Z= -0.23062925E-07   Total=     0.00762198
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11007988E+01         XY= -0.72017274E-01         XZ= -0.63771088E-01
                YY=  0.12448329E+01         YZ= -0.21778983E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6853727E-02 Y=  0.3923180E-08 Z=  0.4611672E-02  Total=      0.0082608
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094847E+02         XY=  0.34268632E-01         XZ=  0.53409080E-01
                YY= -0.10161240E+02         YZ=  0.23058356E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47208575E-01 Y=  0.86373007E-11 Z= -0.12201135E-06   Total=     0.04720857
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35272206E+00         XY= -0.44605639E+00         XZ= -0.39497837E+00
                YY=  0.12448333E+01         YZ= -0.11527603E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1910424E-02 Y=  0.3924480E-08 Z=  0.4611472E-02  Total=      0.0049915
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144280E+02         XY=  0.95521197E-02         XZ=  0.31517397E-01
                YY= -0.10161240E+02         YZ=  0.23057358E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68833688E-01 Y=  0.10197328E-11 Z= -0.46503700E-07   Total=     0.06883369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.55933401E-01         XY= -0.65038409E+00         XZ= -0.57590691E+00
                YY=  0.12448341E+01         YZ= -0.43938036E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3759662E-02 Y=  0.3929465E-08 Z=  0.4611521E-02  Total=      0.0059499
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200981E+02         XY= -0.18798311E-01         XZ=  0.64085078E-02
                YY= -0.10161240E+02         YZ=  0.23057602E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64269556E-01 Y= -0.61258235E-11 Z=  0.99162160E-07   Total=     0.06426956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30314659E-01         XY= -0.60725930E+00         XZ= -0.53771906E+00
                YY=  0.12448341E+01         YZ=  0.93690229E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7999226E-02 Y=  0.3928742E-08 Z=  0.4611751E-02  Total=      0.0092334
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243377E+02         XY= -0.39996132E-01         XZ= -0.12364623E-01
                YY= -0.10161240E+02         YZ=  0.23058754E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35252695E-01 Y= -0.10222286E-10 Z=  0.11290146E-06   Total=     0.03525269
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57865296E+00         XY= -0.33308969E+00         XZ= -0.29494552E+00
                YY=  0.12448334E+01         YZ=  0.10666850E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9195237E-02 Y=  0.3927008E-08 Z=  0.4611846E-02  Total=      0.0102870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255337E+02         XY= -0.45976185E-01         XZ= -0.17660514E-01
                YY= -0.10161240E+02         YZ=  0.23059229E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.71767978E-02 Y= -0.10007982E-10 Z= -0.26482980E-07   Total=     0.00717680
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13804551E+01         XY=  0.67810912E-01         XZ=  0.60045079E-01
                YY=  0.12448329E+01         YZ= -0.25030615E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6892648E-02 Y=  0.3924552E-08 Z=  0.4611675E-02  Total=      0.0082931
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232311E+02         XY= -0.34463243E-01         XZ= -0.74647224E-02
                YY= -0.10161240E+02         YZ=  0.23058373E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46875689E-01 Y= -0.59405607E-11 Z= -0.12941928E-06   Total=     0.04687569
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21306569E+01         XY=  0.44291107E+00         XZ=  0.39219008E+00
                YY=  0.12448333E+01         YZ= -0.12228799E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1967534E-02 Y=  0.3924697E-08 Z=  0.4611473E-02  Total=      0.0050137
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183060E+02         XY= -0.98376727E-02         XZ=  0.14344374E-01
                YY= -0.10161240E+02         YZ=  0.23057365E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68739662E-01 Y=  0.89082282E-13 Z= -0.55880271E-07   Total=     0.06873966
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25438261E+01         XY=  0.64949568E+00         XZ=  0.57511858E+00
                YY=  0.12448341E+01         YZ= -0.52798690E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3706235E-02 Y=  0.3930909E-08 Z=  0.4611519E-02  Total=      0.0059163
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126322E+02         XY=  0.18531171E-01         XZ=  0.39470009E-01
                YY= -0.10161240E+02         YZ=  0.23057592E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64450087E-01 Y=  0.55684337E-11 Z=  0.92292724E-07   Total=     0.06445009
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24627634E+01         XY=  0.60896507E+00         XZ=  0.53923071E+00
                YY=  0.12448341E+01         YZ=  0.87209070E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7969944E-02 Y=  0.3931776E-08 Z=  0.4611749E-02  Total=      0.0092081
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083685E+02         XY=  0.39849720E-01         XZ=  0.58352336E-01
                YY= -0.10161240E+02         YZ=  0.23058741E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35639031E-01 Y=  0.83477976E-11 Z=  0.11171231E-06   Total=     0.03563903
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19183124E+01         XY=  0.33674004E+00         XZ=  0.29817946E+00
                YY=  0.12448334E+01         YZ=  0.10556025E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9201371E-02 Y=  0.3932210E-08 Z=  0.4611846E-02  Total=      0.0102924
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071371E+02         XY=  0.46006851E-01         XZ=  0.63805997E-01
                YY= -0.10161240E+02         YZ=  0.23059229E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67316999E-02 Y=  0.74085457E-11 Z= -0.22847008E-07   Total=     0.00673170
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11176226E+01         XY= -0.63605346E-01         XZ= -0.56322048E-01
                YY=  0.12448329E+01         YZ= -0.21580675E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6931988E-02 Y=  0.3931704E-08 Z=  0.4611677E-02  Total=      0.0083259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094065E+02         XY=  0.34659939E-01         XZ=  0.53755527E-01
                YY= -0.10161240E+02         YZ=  0.23058385E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46541225E-01 Y=  0.31469460E-11 Z= -0.12441208E-06   Total=     0.04654123
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36533307E+00         XY= -0.43975085E+00         XZ= -0.38939460E+00
                YY=  0.12448333E+01         YZ= -0.11754935E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2025231E-02 Y=  0.3932354E-08 Z=  0.4611475E-02  Total=      0.0050366
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143132E+02         XY=  0.10126153E-01         XZ=  0.32025675E-01
                YY= -0.10161240E+02         YZ=  0.23057372E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68643135E-01 Y= -0.28849333E-11 Z= -0.52028735E-07   Total=     0.06864314
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.52332505E-01         XY= -0.64858363E+00         XZ= -0.57431246E+00
                YY=  0.12448340E+01         YZ= -0.49162100E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3652020E-02 Y=  0.3938711E-08 Z=  0.4611518E-02  Total=      0.0058825
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199905E+02         XY= -0.18260100E-01         XZ=  0.68850365E-02
                YY= -0.10161240E+02         YZ=  0.23057586E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64628278E-01 Y= -0.86297366E-11 Z=  0.94644304E-07   Total=     0.06462828
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23535791E-01         XY= -0.61064873E+00         XZ= -0.54072031E+00
                YY=  0.12448341E+01         YZ=  0.89418960E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7939731E-02 Y=  0.3939795E-08 Z=  0.4611747E-02  Total=      0.0091819
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242782E+02         XY= -0.39698658E-01         XZ= -0.12101310E-01
                YY= -0.10161240E+02         YZ=  0.23058734E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36024207E-01 Y= -0.12287884E-10 Z=  0.11253289E-06   Total=     0.03602421
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56407345E+00         XY= -0.34037943E+00         XZ= -0.30140053E+00
                YY=  0.12448334E+01         YZ=  0.10631809E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9206554E-02 Y=  0.3939000E-08 Z=  0.4611847E-02  Total=      0.0102971
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255450E+02         XY= -0.46032773E-01         XZ= -0.17710761E-01
                YY= -0.10161240E+02         YZ=  0.23059235E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62860136E-02 Y= -0.12912424E-10 Z= -0.24779593E-07   Total=     0.00628601
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13636217E+01         XY=  0.59394221E-01         XZ=  0.52592067E-01
                YY=  0.12448329E+01         YZ= -0.23423984E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6970504E-02 Y=  0.3936761E-08 Z=  0.4611680E-02  Total=      0.0083580
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233090E+02         XY= -0.34852521E-01         XZ= -0.78096102E-02
                YY= -0.10161240E+02         YZ=  0.23058399E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46204516E-01 Y= -0.10649588E-10 Z= -0.12998236E-06   Total=     0.04620452
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21179735E+01         XY=  0.43656940E+00         XZ=  0.38657436E+00
                YY=  0.12448333E+01         YZ= -0.12282433E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2082340E-02 Y=  0.3934810E-08 Z=  0.4611476E-02  Total=      0.0050598
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184208E+02         XY= -0.10411704E-01         XZ=  0.13835831E-01
                YY= -0.10161240E+02         YZ=  0.23057376E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68543419E-01 Y= -0.65900956E-11 Z= -0.59280741E-07   Total=     0.06854342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25401176E+01         XY=  0.64764145E+00         XZ=  0.57347635E+00
                YY=  0.12448340E+01         YZ= -0.56017588E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3598120E-02 Y=  0.3938711E-08 Z=  0.4611515E-02  Total=      0.0058491
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127403E+02         XY=  0.17990598E-01         XZ=  0.38991059E-01
                YY= -0.10161240E+02         YZ=  0.23057574E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64803395E-01 Y= -0.23308526E-11 Z=  0.90015154E-07   Total=     0.06480340
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24694399E+01         XY=  0.61230335E+00         XZ=  0.54218638E+00
                YY=  0.12448341E+01         YZ=  0.85050160E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7909614E-02 Y=  0.3937483E-08 Z=  0.4611744E-02  Total=      0.0091559
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084288E+02         XY=  0.39548069E-01         XZ=  0.58084976E-01
                YY= -0.10161240E+02         YZ=  0.23058719E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36407427E-01 Y=  0.57568720E-12 Z=  0.11348899E-06   Total=     0.03640743
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19328329E+01         XY=  0.34400033E+00         XZ=  0.30460809E+00
                YY=  0.12448334E+01         YZ=  0.10723215E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9211734E-02 Y=  0.3936255E-08 Z=  0.4611847E-02  Total=      0.0103017
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071267E+02         XY=  0.46058668E-01         XZ=  0.63851711E-01
                YY= -0.10161240E+02         YZ=  0.23059234E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58406050E-02 Y=  0.11041413E-11 Z= -0.19314037E-07   Total=     0.00584061
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11344618E+01         XY= -0.55185720E-01         XZ= -0.48866739E-01
                YY=  0.12448329E+01         YZ= -0.18248100E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7009054E-02 Y=  0.3935677E-08 Z=  0.4611683E-02  Total=      0.0083901
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093294E+02         XY=  0.35045270E-01         XZ=  0.54096641E-01
                YY= -0.10161240E+02         YZ=  0.23058411E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45866495E-01 Y= -0.95901913E-12 Z= -0.12365070E-06   Total=     0.04586649
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37808356E+00         XY= -0.43337557E+00         XZ= -0.38374944E+00
                YY=  0.12448333E+01         YZ= -0.11683373E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2139629E-02 Y=  0.3936039E-08 Z=  0.4611477E-02  Total=      0.0050837
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141988E+02         XY=  0.10698143E-01         XZ=  0.32532096E-01
                YY= -0.10161240E+02         YZ=  0.23057384E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68441504E-01 Y= -0.49853058E-11 Z= -0.54662429E-07   Total=     0.06844150
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.48522258E-01         XY= -0.64667850E+00         XZ= -0.57262543E+00
                YY=  0.12448340E+01         YZ= -0.51652690E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3543866E-02 Y=  0.3941168E-08 Z=  0.4611514E-02  Total=      0.0058159
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198823E+02         XY= -0.17719330E-01         XZ=  0.73637856E-02
                YY= -0.10161240E+02         YZ=  0.23057569E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64976469E-01 Y= -0.97145925E-11 Z=  0.92767171E-07   Total=     0.06497647
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16955923E-01         XY= -0.61393866E+00         XZ= -0.54363326E+00
                YY=  0.12448341E+01         YZ=  0.87644077E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7879022E-02 Y=  0.3940734E-08 Z=  0.4611743E-02  Total=      0.0091295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242175E+02         XY= -0.39395110E-01         XZ= -0.11832649E-01
                YY= -0.10161240E+02         YZ=  0.23058713E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36789736E-01 Y= -0.13638861E-10 Z=  0.11475302E-06   Total=     0.03678974
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54960702E+00         XY= -0.34761262E+00         XZ= -0.30780500E+00
                YY=  0.12448334E+01         YZ=  0.10841436E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9216437E-02 Y=  0.3939000E-08 Z=  0.4611849E-02  Total=      0.0103059
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255549E+02         XY= -0.46082185E-01         XZ= -0.17754658E-01
                YY= -0.10161240E+02         YZ=  0.23059241E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53944346E-02 Y= -0.15458317E-10 Z= -0.20327449E-07   Total=     0.00539443
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13467732E+01         XY=  0.50970020E-01         XZ=  0.45133130E-01
                YY=  0.12448329E+01         YZ= -0.19219729E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7047265E-02 Y=  0.3937122E-08 Z=  0.4611686E-02  Total=      0.0084221
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233857E+02         XY= -0.35236326E-01         XZ= -0.81496212E-02
                YY= -0.10161240E+02         YZ=  0.23058426E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45526150E-01 Y= -0.14494975E-10 Z= -0.12760653E-06   Total=     0.04552615
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21051542E+01         XY=  0.43015977E+00         XZ=  0.38089935E+00
                YY=  0.12448333E+01         YZ= -0.12058297E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2196817E-02 Y=  0.3935461E-08 Z=  0.4611479E-02  Total=      0.0051080
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185353E+02         XY= -0.10984087E-01         XZ=  0.13328817E-01
                YY= -0.10161240E+02         YZ=  0.23057391E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68336420E-01 Y= -0.10943015E-10 Z= -0.59707419E-07   Total=     0.06833642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25362059E+01         XY=  0.64568559E+00         XZ=  0.57174507E+00
                YY=  0.12448340E+01         YZ= -0.56424634E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3489445E-02 Y=  0.3938856E-08 Z=  0.4611513E-02  Total=      0.0057829
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128490E+02         XY=  0.17447224E-01         XZ=  0.38509735E-01
                YY= -0.10161240E+02         YZ=  0.23057561E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65146578E-01 Y= -0.58649836E-11 Z=  0.90579902E-07   Total=     0.06514658
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24759252E+01         XY=  0.61554596E+00         XZ=  0.54505821E+00
                YY=  0.12448341E+01         YZ=  0.85580552E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7848056E-02 Y=  0.3951498E-08 Z=  0.4611741E-02  Total=      0.0091028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084904E+02         XY=  0.39240277E-01         XZ=  0.57812319E-01
                YY= -0.10161240E+02         YZ=  0.23058703E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37170270E-01 Y= -0.90246297E-12 Z=  0.11793553E-06   Total=     0.03717027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19472486E+01         XY=  0.35120816E+00         XZ=  0.31099097E+00
                YY=  0.12448334E+01         YZ=  0.11143201E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9220683E-02 Y=  0.3950703E-08 Z=  0.4611849E-02  Total=      0.0103097
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071178E+02         XY=  0.46103415E-01         XZ=  0.63891330E-01
                YY= -0.10161240E+02         YZ=  0.23059245E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49483099E-02 Y=  0.22458913E-11 Z= -0.13223304E-07   Total=     0.00494831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11513236E+01         XY= -0.46754752E-01         XZ= -0.41400936E-01
                YY=  0.12448329E+01         YZ= -0.12492523E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7085079E-02 Y=  0.3951570E-08 Z=  0.4611689E-02  Total=      0.0084538
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092534E+02         XY=  0.35425393E-01         XZ=  0.54433322E-01
                YY= -0.10161240E+02         YZ=  0.23058444E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45184235E-01 Y=  0.24265465E-11 Z= -0.12038107E-06   Total=     0.04518424
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39097635E+00         XY= -0.42692915E+00         XZ= -0.37804113E+00
                YY=  0.12448333E+01         YZ= -0.11374183E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2253775E-02 Y=  0.3952726E-08 Z=  0.4611481E-02  Total=      0.0051328
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140847E+02         XY=  0.11268875E-01         XZ=  0.33037581E-01
                YY= -0.10161240E+02         YZ=  0.23057405E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68228879E-01 Y= -0.49561659E-12 Z= -0.54786568E-07   Total=     0.06822888
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.44504236E-01         XY= -0.64466948E+00         XZ= -0.57084658E+00
                YY=  0.12448340E+01         YZ= -0.51766492E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3435057E-02 Y=  0.3957927E-08 Z=  0.4611513E-02  Total=      0.0057503
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197735E+02         XY= -0.17175287E-01         XZ=  0.78455984E-02
                YY= -0.10161240E+02         YZ=  0.23057562E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65314415E-01 Y= -0.54927941E-11 Z=  0.93476143E-07   Total=     0.06531441
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10569678E-01         XY= -0.61713178E+00         XZ= -0.54646095E+00
                YY=  0.12448341E+01         YZ=  0.88317253E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7816983E-02 Y=  0.3970570E-08 Z=  0.4611741E-02  Total=      0.0090760
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241554E+02         XY= -0.39084917E-01         XZ= -0.11557964E-01
                YY= -0.10161240E+02         YZ=  0.23058703E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37549722E-01 Y= -0.10660441E-10 Z=  0.11967745E-06   Total=     0.03754972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53524533E+00         XY= -0.35479346E+00         XZ= -0.31416378E+00
                YY=  0.12448334E+01         YZ=  0.11306955E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9224809E-02 Y=  0.3968980E-08 Z=  0.4611852E-02  Total=      0.0103134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255633E+02         XY= -0.46124048E-01         XZ= -0.17791762E-01
                YY= -0.10161240E+02         YZ=  0.23059258E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45015102E-02 Y= -0.13879485E-10 Z= -0.13199532E-07   Total=     0.00450151
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13298993E+01         XY=  0.42533107E-01         XZ=  0.37662130E-01
                YY=  0.12448329E+01         YZ= -0.12483690E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7122904E-02 Y=  0.3967824E-08 Z=  0.4611694E-02  Total=      0.0084855
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234614E+02         XY= -0.35614520E-01         XZ= -0.84845926E-02
                YY= -0.10161240E+02         YZ=  0.23058466E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44839976E-01 Y= -0.13632465E-10 Z= -0.12299008E-06   Total=     0.04483998
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20921874E+01         XY=  0.42367637E+00         XZ=  0.37515819E+00
                YY=  0.12448333E+01         YZ= -0.11622050E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2310987E-02 Y=  0.3967680E-08 Z=  0.4611484E-02  Total=      0.0051581
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186494E+02         XY= -0.11554939E-01         XZ=  0.12823196E-01
                YY= -0.10161240E+02         YZ=  0.23057420E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68118033E-01 Y= -0.96612331E-11 Z= -0.58805273E-07   Total=     0.06811803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25320790E+01         XY=  0.64362213E+00         XZ=  0.56991777E+00
                YY=  0.12448340E+01         YZ= -0.55571314E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3380136E-02 Y=  0.3971653E-08 Z=  0.4611513E-02  Total=      0.0057176
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129583E+02         XY=  0.16900678E-01         XZ=  0.38025612E-01
                YY= -0.10161240E+02         YZ=  0.23057562E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65479044E-01 Y= -0.31764155E-11 Z=  0.91339371E-07   Total=     0.06547904
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24822079E+01         XY=  0.61868731E+00         XZ=  0.54783983E+00
                YY=  0.12448342E+01         YZ=  0.86300253E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7785150E-02 Y=  0.3984079E-08 Z=  0.4611740E-02  Total=      0.0090486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085533E+02         XY=  0.38925749E-01         XZ=  0.57533687E-01
                YY= -0.10161240E+02         YZ=  0.23058699E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37927083E-01 Y=  0.35137401E-11 Z=  0.12163057E-06   Total=     0.03792708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19615502E+01         XY=  0.35835900E+00         XZ=  0.31732311E+00
                YY=  0.12448335E+01         YZ=  0.11492689E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9228068E-02 Y=  0.3983501E-08 Z=  0.4611854E-02  Total=      0.0103163
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071104E+02         XY=  0.46140338E-01         XZ=  0.63924004E-01
                YY= -0.10161240E+02         YZ=  0.23059268E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40550990E-02 Y=  0.78536134E-11 Z= -0.83963099E-08   Total=     0.00405510
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11682028E+01         XY= -0.38315133E-01         XZ= -0.33927453E-01
                YY=  0.12448329E+01         YZ= -0.79270897E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7159898E-02 Y=  0.3984151E-08 Z=  0.4611698E-02  Total=      0.0085166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091786E+02         XY=  0.35799486E-01         XZ=  0.54764654E-01
                YY= -0.10161240E+02         YZ=  0.23058489E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44494457E-01 Y=  0.80597800E-11 Z= -0.11850069E-06   Total=     0.04449446
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40401124E+00         XY= -0.42041169E+00         XZ= -0.37226961E+00
                YY=  0.12448333E+01         YZ= -0.11196051E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2367517E-02 Y=  0.3985596E-08 Z=  0.4611488E-02  Total=      0.0051837
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139709E+02         XY=  0.11837582E-01         XZ=  0.33541283E-01
                YY= -0.10161240E+02         YZ=  0.23057438E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68004949E-01 Y=  0.38947180E-11 Z= -0.56241865E-07   Total=     0.06800495
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.40272549E-01         XY= -0.64255364E+00         XZ= -0.56897259E+00
                YY=  0.12448340E+01         YZ= -0.53137946E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3325710E-02 Y=  0.3991447E-08 Z=  0.4611514E-02  Total=      0.0056856
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196642E+02         XY= -0.16628553E-01         XZ=  0.83298334E-02
                YY= -0.10161240E+02         YZ=  0.23057567E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65641488E-01 Y= -0.31471237E-11 Z=  0.92946063E-07   Total=     0.06564149
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43889105E-02         XY= -0.62022218E+00         XZ= -0.54919696E+00
                YY=  0.12448342E+01         YZ=  0.87818310E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7753671E-02 Y=  0.4004017E-08 Z=  0.4611741E-02  Total=      0.0090215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240921E+02         XY= -0.38768359E-01         XZ= -0.11277573E-01
                YY= -0.10161240E+02         YZ=  0.23058702E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38303300E-01 Y= -0.10356952E-10 Z=  0.12343426E-06   Total=     0.03830330
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52100478E+00         XY= -0.36191373E+00         XZ= -0.32046815E+00
                YY=  0.12448335E+01         YZ=  0.11661945E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9231654E-02 Y=  0.4003728E-08 Z=  0.4611857E-02  Total=      0.0103195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255701E+02         XY= -0.46158270E-01         XZ= -0.17821998E-01
                YY= -0.10161240E+02         YZ=  0.23059284E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36082121E-02 Y= -0.14863320E-10 Z= -0.72450575E-08   Total=     0.00360821
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13130184E+01         XY=  0.34092663E-01         XZ=  0.30188748E-01
                YY=  0.12448329E+01         YZ= -0.68583708E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7197326E-02 Y=  0.4001633E-08 Z=  0.4611703E-02  Total=      0.0085481
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235358E+02         XY= -0.35986634E-01         XZ= -0.88140476E-02
                YY= -0.10161240E+02         YZ=  0.23058515E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44146902E-01 Y= -0.14802900E-10 Z= -0.11969346E-06   Total=     0.04414690
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20790902E+01         XY=  0.41712777E+00         XZ=  0.36935991E+00
                YY=  0.12448333E+01         YZ= -0.11310665E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2424694E-02 Y=  0.4000044E-08 Z=  0.4611492E-02  Total=      0.0052101
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187631E+02         XY= -0.12123471E-01         XZ=  0.12319783E-01
                YY= -0.10161240E+02         YZ=  0.23057458E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67888939E-01 Y= -0.10127461E-10 Z= -0.59477642E-07   Total=     0.06788894
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25277498E+01         XY=  0.64145751E+00         XZ=  0.56800131E+00
                YY=  0.12448341E+01         YZ= -0.56207018E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3270392E-02 Y=  0.4004523E-08 Z=  0.4611515E-02  Total=      0.0056535
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130681E+02         XY=  0.16351956E-01         XZ=  0.37539727E-01
                YY= -0.10161240E+02         YZ=  0.23057571E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65801141E-01 Y= -0.26911852E-11 Z=  0.90341283E-07   Total=     0.06580114
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24882946E+01         XY=  0.62173067E+00         XZ=  0.55053485E+00
                YY=  0.12448342E+01         YZ=  0.85357567E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7721109E-02 Y=  0.4017237E-08 Z=  0.4611741E-02  Total=      0.0089935
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086173E+02         XY=  0.38605543E-01         XZ=  0.57250192E-01
                YY= -0.10161240E+02         YZ=  0.23058703E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38677847E-01 Y=  0.44501841E-11 Z=  0.12363988E-06   Total=     0.03867785
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19757376E+01         XY=  0.36545269E+00         XZ=  0.32360456E+00
                YY=  0.12448335E+01         YZ=  0.11682613E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9234084E-02 Y=  0.4018537E-08 Z=  0.4611860E-02  Total=      0.0103217
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071044E+02         XY=  0.46170419E-01         XZ=  0.63950775E-01
                YY= -0.10161240E+02         YZ=  0.23059298E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31613010E-02 Y=  0.82651001E-11 Z= -0.49419035E-08   Total=     0.00316130
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11850931E+01         XY= -0.29869965E-01         XZ= -0.26449391E-01
                YY=  0.12448329E+01         YZ= -0.46629005E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7233671E-02 Y=  0.4020777E-08 Z=  0.4611708E-02  Total=      0.0085787
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091048E+02         XY=  0.36168355E-01         XZ=  0.55091500E-01
                YY= -0.10161240E+02         YZ=  0.23058540E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43797691E-01 Y=  0.69998022E-11 Z= -0.11765180E-06   Total=     0.04379769
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41717818E+00         XY= -0.41382821E+00         XZ= -0.36644015E+00
                YY=  0.12448333E+01         YZ= -0.11115942E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2480968E-02 Y=  0.4022872E-08 Z=  0.4611496E-02  Total=      0.0052365
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138575E+02         XY=  0.12404841E-01         XZ=  0.34043820E-01
                YY= -0.10161240E+02         YZ=  0.23057478E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67770319E-01 Y=  0.93735344E-12 Z= -0.58558469E-07   Total=     0.06777032
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.35838676E-01         XY= -0.64033671E+00         XZ= -0.56700973E+00
                YY=  0.12448341E+01         YZ= -0.55329432E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3215756E-02 Y=  0.4029229E-08 Z=  0.4611516E-02  Total=      0.0056220
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195542E+02         XY= -0.16078784E-01         XZ=  0.88168446E-02
                YY= -0.10161240E+02         YZ=  0.23057577E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65958265E-01 Y= -0.76710322E-11 Z=  0.91543987E-07   Total=     0.06595827
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.15972804E-02         XY= -0.62321529E+00         XZ= -0.55184752E+00
                YY=  0.12448342E+01         YZ=  0.86489610E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7689060E-02 Y=  0.4041077E-08 Z=  0.4611742E-02  Total=      0.0089660
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240275E+02         XY= -0.38445303E-01         XZ= -0.10991366E-01
                YY= -0.10161240E+02         YZ=  0.23058707E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39050953E-01 Y= -0.15493522E-10 Z=  0.12623964E-06   Total=     0.03905095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50687618E+00         XY= -0.36897803E+00         XZ= -0.32672361E+00
                YY=  0.12448335E+01         YZ=  0.11926570E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9236976E-02 Y=  0.4039993E-08 Z=  0.4611863E-02  Total=      0.0103243
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255754E+02         XY= -0.46184884E-01         XZ= -0.17845462E-01
                YY= -0.10161240E+02         YZ=  0.23059315E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27141577E-02 Y= -0.19471109E-10 Z= -0.23473903E-08   Total=     0.00271416
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12961232E+01         XY=  0.25645074E-01         XZ=  0.22708487E-01
                YY=  0.12448329E+01         YZ= -0.22347724E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7270566E-02 Y=  0.4039126E-08 Z=  0.4611714E-02  Total=      0.0086098
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236090E+02         XY= -0.36352830E-01         XZ= -0.91382463E-02
                YY= -0.10161240E+02         YZ=  0.23058569E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43446628E-01 Y= -0.18077646E-10 Z= -0.11765715E-06   Total=     0.04344663
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20658569E+01         XY=  0.41051114E+00         XZ=  0.36350101E+00
                YY=  0.12448333E+01         YZ= -0.11118556E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2537989E-02 Y=  0.4037754E-08 Z=  0.4611500E-02  Total=      0.0052638
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188764E+02         XY= -0.12689947E-01         XZ=  0.11818194E-01
                YY= -0.10161240E+02         YZ=  0.23057500E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67648906E-01 Y= -0.11961550E-10 Z= -0.61744519E-07   Total=     0.06764891
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25232138E+01         XY=  0.63918953E+00         XZ=  0.56599313E+00
                YY=  0.12448341E+01         YZ= -0.58350694E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3160143E-02 Y=  0.4041077E-08 Z=  0.4611517E-02  Total=      0.0055904
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131783E+02         XY=  0.15800715E-01         XZ=  0.37051609E-01
                YY= -0.10161240E+02         YZ=  0.23057584E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66112705E-01 Y= -0.36924442E-11 Z=  0.87416133E-07   Total=     0.06611271
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24941824E+01         XY=  0.62467453E+00         XZ=  0.55314180E+00
                YY=  0.12448342E+01         YZ=  0.82592560E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7655855E-02 Y=  0.4052780E-08 Z=  0.4611742E-02  Total=      0.0089376
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086826E+02         XY=  0.38279271E-01         XZ=  0.56961328E-01
                YY= -0.10161240E+02         YZ=  0.23058708E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39422508E-01 Y=  0.32888020E-11 Z=  0.12359019E-06   Total=     0.03942251
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19898097E+01         XY=  0.37248872E+00         XZ=  0.32983519E+00
                YY=  0.12448335E+01         YZ=  0.11677787E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9238656E-02 Y=  0.4053358E-08 Z=  0.4611866E-02  Total=      0.0103258
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070998E+02         XY=  0.46193279E-01         XZ=  0.63971166E-01
                YY= -0.10161240E+02         YZ=  0.23059328E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22668132E-02 Y=  0.60850077E-11 Z= -0.34253132E-08   Total=     0.00226681
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12019964E+01         XY= -0.21418281E-01         XZ= -0.18965127E-01
                YY=  0.12448329E+01         YZ= -0.32321153E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7306340E-02 Y=  0.4054152E-08 Z=  0.4611719E-02  Total=      0.0086401
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090321E+02         XY=  0.36531698E-01         XZ=  0.55413486E-01
                YY= -0.10161240E+02         YZ=  0.23058592E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43093637E-01 Y=  0.35306507E-11 Z= -0.11852025E-06   Total=     0.04309364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43048282E+00         XY= -0.40717586E+00         XZ= -0.36054916E+00
                YY=  0.12448333E+01         YZ= -0.11198325E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2594102E-02 Y=  0.4054297E-08 Z=  0.4611504E-02  Total=      0.0052911
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137443E+02         XY=  0.12970508E-01         XZ=  0.34545007E-01
                YY= -0.10161240E+02         YZ=  0.23057517E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67524492E-01 Y= -0.33376949E-11 Z= -0.62467506E-07   Total=     0.06752449
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.31193247E-01         XY= -0.63801399E+00         XZ= -0.56495259E+00
                YY=  0.12448340E+01         YZ= -0.59026858E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3105178E-02 Y=  0.4058992E-08 Z=  0.4611518E-02  Total=      0.0055595
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194436E+02         XY= -0.15525894E-01         XZ=  0.93067025E-02
                YY= -0.10161240E+02         YZ=  0.23057588E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66264111E-01 Y= -0.11724387E-10 Z=  0.88524495E-07   Total=     0.06626411
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73769346E-02         XY= -0.62610512E+00         XZ= -0.55440608E+00
                YY=  0.12448342E+01         YZ=  0.83632878E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7623078E-02 Y=  0.4070912E-08 Z=  0.4611742E-02  Total=      0.0089095
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239615E+02         XY= -0.38115394E-01         XZ= -0.10698988E-01
                YY= -0.10161240E+02         YZ=  0.23058710E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39792024E-01 Y= -0.18241089E-10 Z=  0.12733254E-06   Total=     0.03979202
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49287193E+00         XY= -0.37598014E+00         XZ= -0.33292360E+00
                YY=  0.12448335E+01         YZ=  0.12029570E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9240657E-02 Y=  0.4070117E-08 Z=  0.4611869E-02  Total=      0.0103276
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255791E+02         XY= -0.46203288E-01         XZ= -0.17861541E-01
                YY= -0.10161240E+02         YZ=  0.23059342E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18198867E-02 Y= -0.20304417E-10 Z=  0.75214796E-09   Total=     0.00181989
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12792238E+01         XY=  0.17195437E-01         XZ=  0.15226604E-01
                YY=  0.12448329E+01         YZ=  0.69281293E-08         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7342465E-02 Y=  0.4069250E-08 Z=  0.4611724E-02  Total=      0.0086706
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236809E+02         XY= -0.36712328E-01         XZ= -0.94563978E-02
                YY= -0.10161240E+02         YZ=  0.23058619E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42739449E-01 Y= -0.17180863E-10 Z= -0.11746761E-06   Total=     0.04273945
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20524931E+01         XY=  0.40382927E+00         XZ=  0.35758428E+00
                YY=  0.12448333E+01         YZ= -0.11100609E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2650705E-02 Y=  0.4068528E-08 Z=  0.4611508E-02  Total=      0.0053190
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189891E+02         XY= -0.13253527E-01         XZ=  0.11319278E-01
                YY= -0.10161240E+02         YZ=  0.23057539E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67397905E-01 Y= -0.10249435E-10 Z= -0.65811940E-07   Total=     0.06739790
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25184705E+01         XY=  0.63681791E+00         XZ=  0.56389290E+00
                YY=  0.12448340E+01         YZ= -0.62192812E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3049545E-02 Y=  0.4072574E-08 Z=  0.4611519E-02  Total=      0.0055286
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132889E+02         XY=  0.15247723E-01         XZ=  0.36562031E-01
                YY= -0.10161240E+02         YZ=  0.23057593E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66413386E-01 Y= -0.23884928E-11 Z=  0.82960974E-07   Total=     0.06641339
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24998644E+01         XY=  0.62751556E+00         XZ=  0.55565718E+00
                YY=  0.12448342E+01         YZ=  0.78383746E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7589503E-02 Y=  0.4083843E-08 Z=  0.4611742E-02  Total=      0.0088808
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087490E+02         XY=  0.37947511E-01         XZ=  0.56667667E-01
                YY= -0.10161240E+02         YZ=  0.23058709E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40160464E-01 Y=  0.32392468E-11 Z=  0.12257489E-06   Total=     0.04016046
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20037550E+01         XY=  0.37946139E+00         XZ=  0.33600906E+00
                YY=  0.12448335E+01         YZ=  0.11581814E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9241845E-02 Y=  0.4083193E-08 Z=  0.4611871E-02  Total=      0.0103287
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070966E+02         XY=  0.46209221E-01         XZ=  0.63985464E-01
                YY= -0.10161240E+02         YZ=  0.23059352E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13723631E-02 Y=  0.44840605E-11 Z= -0.21757919E-08   Total=     0.00137236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12188990E+01         XY= -0.12966952E-01         XZ= -0.11481896E-01
                YY=  0.12448329E+01         YZ= -0.20531482E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7377905E-02 Y=  0.4082254E-08 Z=  0.4611728E-02  Total=      0.0087007
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089606E+02         XY=  0.36889524E-01         XZ=  0.55730590E-01
                YY= -0.10161240E+02         YZ=  0.23058638E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42383009E-01 Y=  0.10478182E-11 Z= -0.11917055E-06   Total=     0.04238301
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44391168E+00         XY= -0.40046140E+00         XZ= -0.35460387E+00
                YY=  0.12448332E+01         YZ= -0.11260005E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2706865E-02 Y=  0.4081965E-08 Z=  0.4611511E-02  Total=      0.0053473
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136316E+02         XY=  0.13534324E-01         XZ=  0.35044528E-01
                YY= -0.10161240E+02         YZ=  0.23057553E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67268054E-01 Y= -0.54670350E-11 Z= -0.66149780E-07   Total=     0.06726805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.26347300E-01         XY= -0.63559100E+00         XZ= -0.56280730E+00
                YY=  0.12448340E+01         YZ= -0.62508134E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2994069E-02 Y=  0.4087022E-08 Z=  0.4611519E-02  Total=      0.0054982
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193325E+02         XY= -0.14970349E-01         XZ=  0.97988619E-02
                YY= -0.10161240E+02         YZ=  0.23057593E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66559417E-01 Y= -0.12289164E-10 Z=  0.85310740E-07   Total=     0.06655942
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.12957415E-01         XY= -0.62889535E+00         XZ= -0.55687693E+00
                YY=  0.12448342E+01         YZ=  0.80595608E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7555844E-02 Y=  0.4098436E-08 Z=  0.4611742E-02  Total=      0.0088521
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238943E+02         XY= -0.37779224E-01         XZ= -0.10401135E-01
                YY= -0.10161240E+02         YZ=  0.23058707E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40526698E-01 Y= -0.16654168E-10 Z=  0.12767153E-06   Total=     0.04052670
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47898855E+00         XY= -0.38292180E+00         XZ= -0.33907038E+00
                YY=  0.12448335E+01         YZ=  0.12061709E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9242824E-02 Y=  0.4096991E-08 Z=  0.4611873E-02  Total=      0.0103295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255813E+02         XY= -0.46214122E-01         XZ= -0.17870994E-01
                YY= -0.10161240E+02         YZ=  0.23059364E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.92538630E-03 Y= -0.16917620E-10 Z=  0.26629782E-08   Total=     0.00092539
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12623201E+01         XY=  0.87436332E-02         XZ=  0.77427097E-02
                YY=  0.12448329E+01         YZ=  0.25008746E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7413152E-02 Y=  0.4095113E-08 Z=  0.4611733E-02  Total=      0.0087306
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237516E+02         XY= -0.37065760E-01         XZ= -0.97692545E-02
                YY= -0.10161240E+02         YZ=  0.23058663E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42025476E-01 Y= -0.13149945E-10 Z= -0.11871250E-06   Total=     0.04202548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20390008E+01         XY=  0.39708320E+00         XZ=  0.35161080E+00
                YY=  0.12448332E+01         YZ= -0.11217922E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2762958E-02 Y=  0.4094246E-08 Z=  0.4611515E-02  Total=      0.0053759
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191014E+02         XY= -0.13814791E-01         XZ=  0.10822343E-01
                YY= -0.10161240E+02         YZ=  0.23057572E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67136126E-01 Y= -0.69987273E-11 Z= -0.71434337E-07   Total=     0.06713613
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25135236E+01         XY=  0.63434446E+00         XZ=  0.56170275E+00
                YY=  0.12448340E+01         YZ= -0.67502719E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2938496E-02 Y=  0.4098002E-08 Z=  0.4611519E-02  Total=      0.0054682
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133999E+02         XY=  0.14692477E-01         XZ=  0.36070399E-01
                YY= -0.10161240E+02         YZ=  0.23057595E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66703427E-01 Y= -0.92113644E-12 Z=  0.76911510E-07   Total=     0.06670343
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25053454E+01         XY=  0.63025604E+00         XZ=  0.55808389E+00
                YY=  0.12448342E+01         YZ=  0.72668849E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7521972E-02 Y=  0.4107755E-08 Z=  0.4611741E-02  Total=      0.0088232
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088165E+02         XY=  0.37609857E-01         XZ=  0.56368742E-01
                YY= -0.10161240E+02         YZ=  0.23058702E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40892001E-01 Y=  0.28524852E-11 Z=  0.11999569E-06   Total=     0.04089200
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20175790E+01         XY=  0.38637342E+00         XZ=  0.34212961E+00
                YY=  0.12448335E+01         YZ=  0.11338063E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9243592E-02 Y=  0.4106888E-08 Z=  0.4611874E-02  Total=      0.0103302
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070949E+02         XY=  0.46217958E-01         XZ=  0.63993351E-01
                YY= -0.10161240E+02         YZ=  0.23059368E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47762358E-03 Y=  0.31821871E-11 Z= -0.24586897E-08   Total=     0.00047762
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12358071E+01         XY= -0.45128888E-02         XZ= -0.39959353E-02
                YY=  0.12448329E+01         YZ= -0.23217134E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7448335E-02 Y=  0.4106743E-08 Z=  0.4611736E-02  Total=      0.0087605
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088901E+02         XY=  0.37241674E-01         XZ=  0.56042647E-01
                YY= -0.10161240E+02         YZ=  0.23058676E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41665456E-01 Y=  0.37003113E-12 Z= -0.12143947E-06   Total=     0.04166546
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45747139E+00         XY= -0.39368151E+00         XZ= -0.34860045E+00
                YY=  0.12448332E+01         YZ= -0.11474461E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2819253E-02 Y=  0.4107177E-08 Z=  0.4611516E-02  Total=      0.0054050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135192E+02         XY=  0.14096264E-01         XZ=  0.35542373E-01
                YY= -0.10161240E+02         YZ=  0.23057580E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67000669E-01 Y= -0.40964025E-11 Z= -0.71675220E-07   Total=     0.06700067
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.21294481E-01         XY= -0.63306458E+00         XZ= -0.56057037E+00
                YY=  0.12448340E+01         YZ= -0.67727953E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2882410E-02 Y=  0.4112956E-08 Z=  0.4611518E-02  Total=      0.0054382
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192209E+02         XY= -0.14412053E-01         XZ=  0.10293442E-01
                YY= -0.10161240E+02         YZ=  0.23057590E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66843918E-01 Y= -0.82436810E-11 Z=  0.80058060E-07   Total=     0.06684392
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.18333708E-01         XY= -0.63158349E+00         XZ= -0.55925748E+00
                YY=  0.12448342E+01         YZ=  0.75635735E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7487323E-02 Y=  0.4125382E-08 Z=  0.4611739E-02  Total=      0.0087936
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238258E+02         XY= -0.37436617E-01         XZ= -0.10097603E-01
                YY= -0.10161240E+02         YZ=  0.23058694E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41254844E-01 Y= -0.10423669E-10 Z=  0.12602764E-06   Total=     0.04125484
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46522856E+00         XY= -0.38980178E+00         XZ= -0.34516275E+00
                YY=  0.12448335E+01         YZ=  0.11906885E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9243437E-02 Y=  0.4125815E-08 Z=  0.4611875E-02  Total=      0.0103301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255819E+02         XY= -0.46217188E-01         XZ= -0.17873604E-01
                YY= -0.10161240E+02         YZ=  0.23059374E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30616342E-04 Y= -0.98983754E-11 Z=  0.29516906E-08   Total=     0.00003062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12454114E+01         XY=  0.28928242E-03         XZ=  0.25624391E-03
                YY=  0.12448329E+01         YZ=  0.27793352E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7482594E-02 Y=  0.4125237E-08 Z=  0.4611739E-02  Total=      0.0087896
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238211E+02         XY= -0.37412974E-01         XZ= -0.10076655E-01
                YY= -0.10161240E+02         YZ=  0.23058695E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41304487E-01 Y= -0.69955012E-11 Z= -0.12107882E-06   Total=     0.04130449
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20253761E+01         XY=  0.39027084E+00         XZ=  0.34557827E+00
                YY=  0.12448332E+01         YZ= -0.11441012E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2874740E-02 Y=  0.4124442E-08 Z=  0.4611519E-02  Total=      0.0054342
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192132E+02         XY= -0.14373702E-01         XZ=  0.10327427E-01
                YY= -0.10161240E+02         YZ=  0.23057593E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66863203E-01 Y= -0.28339725E-11 Z= -0.77734118E-07   Total=     0.06686320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25083661E+01         XY=  0.63176571E+00         XZ=  0.55941899E+00
                YY=  0.12448340E+01         YZ= -0.73451855E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2826971E-02 Y=  0.4129716E-08 Z=  0.4611518E-02  Total=      0.0054091
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135115E+02         XY=  0.14134855E-01         XZ=  0.35576582E-01
                YY= -0.10161240E+02         YZ=  0.23057586E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66982383E-01 Y=  0.12018082E-11 Z=  0.70522788E-07   Total=     0.06698238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25106169E+01         XY=  0.63289180E+00         XZ=  0.56041752E+00
                YY=  0.12448342E+01         YZ=  0.66633982E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7453202E-02 Y=  0.4141852E-08 Z=  0.4611737E-02  Total=      0.0087646
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088853E+02         XY=  0.37266009E-01         XZ=  0.56064239E-01
                YY= -0.10161240E+02         YZ=  0.23058682E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41616686E-01 Y=  0.39909094E-11 Z=  0.11736210E-06   Total=     0.04161669
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20312735E+01         XY=  0.39322070E+00         XZ=  0.34819256E+00
                YY=  0.12448336E+01         YZ=  0.11089305E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9243807E-02 Y=  0.4143947E-08 Z=  0.4611874E-02  Total=      0.0103304
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070947E+02         XY=  0.46219032E-01         XZ=  0.63994348E-01
                YY= -0.10161240E+02         YZ=  0.23059370E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41705965E-03 Y=  0.50038734E-11 Z= -0.25860021E-08   Total=     0.00041706
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12527141E+01         XY=  0.39406427E-02         XZ=  0.34893815E-02
                YY=  0.12448329E+01         YZ= -0.24406151E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7517516E-02 Y=  0.4145898E-08 Z=  0.4611741E-02  Total=      0.0088194
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088209E+02         XY=  0.37587579E-01         XZ=  0.56349065E-01
                YY= -0.10161240E+02         YZ=  0.23058701E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40941181E-01 Y=  0.43486293E-11 Z= -0.12355227E-06   Total=     0.04094118
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47115816E+00         XY= -0.38683810E+00         XZ= -0.34254087E+00
                YY=  0.12448332E+01         YZ= -0.11673770E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2931142E-02 Y=  0.4147271E-08 Z=  0.4611519E-02  Total=      0.0054642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134073E+02         XY=  0.14655709E-01         XZ=  0.36037900E-01
                YY= -0.10161240E+02         YZ=  0.23057595E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66722376E-01 Y=  0.25909981E-11 Z= -0.77328658E-07   Total=     0.06672238
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.16035504E-01         XY= -0.63043509E+00         XZ= -0.55824216E+00
                YY=  0.12448340E+01         YZ= -0.73064171E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2770322E-02 Y=  0.4153267E-08 Z=  0.4611515E-02  Total=      0.0053797
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191088E+02         XY= -0.13851611E-01         XZ=  0.10789814E-01
                YY= -0.10161240E+02         YZ=  0.23057574E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67117503E-01 Y=  0.48283845E-12 Z=  0.74250031E-07   Total=     0.06711750
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.23503702E-01         XY= -0.63416850E+00         XZ= -0.56154662E+00
                YY=  0.12448342E+01         YZ=  0.70155176E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7417621E-02 Y=  0.4164464E-08 Z=  0.4611734E-02  Total=      0.0087344
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237561E+02         XY= -0.37088108E-01         XZ= -0.97889507E-02
                YY= -0.10161240E+02         YZ=  0.23058667E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41976236E-01 Y= -0.12732235E-11 Z=  0.12353660E-06   Total=     0.04197624
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45159621E+00         XY= -0.39661795E+00         XZ= -0.35119848E+00
                YY=  0.12448336E+01         YZ=  0.11672276E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9242583E-02 Y=  0.4164681E-08 Z=  0.4611874E-02  Total=      0.0103293
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255811E+02         XY= -0.46212919E-01         XZ= -0.17869817E-01
                YY= -0.10161240E+02         YZ=  0.23059370E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.86413704E-03 Y= -0.21610298E-11 Z=  0.24150576E-08   Total=     0.00086414
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12285029E+01         XY= -0.81649118E-02         XZ= -0.72299109E-02
                YY=  0.12448330E+01         YZ=  0.22787309E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7550857E-02 Y=  0.4164392E-08 Z=  0.4611743E-02  Total=      0.0088478
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238893E+02         XY= -0.37754288E-01         XZ= -0.10378923E-01
                YY= -0.10161240E+02         YZ=  0.23058713E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40576781E-01 Y= -0.18968297E-11 Z= -0.12398080E-06   Total=     0.04057678
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20116244E+01         XY=  0.38339502E+00         XZ=  0.33948971E+00
                YY=  0.12448332E+01         YZ= -0.11714783E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2986093E-02 Y=  0.4163452E-08 Z=  0.4611521E-02  Total=      0.0054939
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193245E+02         XY= -0.14930465E-01         XZ=  0.98343278E-02
                YY= -0.10161240E+02         YZ=  0.23057601E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66579402E-01 Y= -0.44208861E-12 Z= -0.84174987E-07   Total=     0.06657940
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25030030E+01         XY=  0.62908418E+00         XZ=  0.55704439E+00
                YY=  0.12448340E+01         YZ= -0.79535572E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2714949E-02 Y=  0.4167353E-08 Z=  0.4611513E-02  Total=      0.0053514
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136235E+02         XY=  0.13574743E-01         XZ=  0.35080481E-01
                YY= -0.10161240E+02         YZ=  0.23057563E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67250457E-01 Y=  0.19772502E-11 Z=  0.64377788E-07   Total=     0.06725046
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25156828E+01         XY=  0.63542473E+00         XZ=  0.56266024E+00
                YY=  0.12448342E+01         YZ=  0.60828507E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7383184E-02 Y=  0.4177395E-08 Z=  0.4611730E-02  Total=      0.0087051
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089553E+02         XY=  0.36915919E-01         XZ=  0.55754130E-01
                YY= -0.10161240E+02         YZ=  0.23058648E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42334634E-01 Y=  0.48539255E-11 Z=  0.11530359E-06   Total=     0.04233463
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20448408E+01         XY=  0.40000432E+00         XZ=  0.35419921E+00
                YY=  0.12448336E+01         YZ=  0.10894887E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242484E-02 Y=  0.4177106E-08 Z=  0.4611872E-02  Total=      0.0103292
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070960E+02         XY=  0.46212420E-01         XZ=  0.63988463E-01
                YY= -0.10161240E+02         YZ=  0.23059358E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13117094E-02 Y=  0.74408357E-11 Z= -0.19172621E-08   Total=     0.00131171
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12696205E+01         XY=  0.12393858E-01         XZ=  0.10974416E-01
                YY=  0.12448330E+01         YZ= -0.18065763E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7585443E-02 Y=  0.4176673E-08 Z=  0.4611743E-02  Total=      0.0088773
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087530E+02         XY=  0.37927212E-01         XZ=  0.56649853E-01
                YY= -0.10161240E+02         YZ=  0.23058713E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40210244E-01 Y=  0.89040884E-11 Z= -0.12482829E-06   Total=     0.04021024
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48497084E+00         XY= -0.37993174E+00         XZ= -0.33642562E+00
                YY=  0.12448332E+01         YZ= -0.11793940E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3042520E-02 Y=  0.4176817E-08 Z=  0.4611520E-02  Total=      0.0055248
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132959E+02         XY=  0.15212600E-01         XZ=  0.36531087E-01
                YY= -0.10161240E+02         YZ=  0.23057597E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66433293E-01 Y=  0.85923506E-11 Z= -0.82242048E-07   Total=     0.06643329
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.10572621E-01         XY= -0.62770365E+00         XZ= -0.55582382E+00
                YY=  0.12448340E+01         YZ= -0.77701476E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2657825E-02 Y=  0.4183608E-08 Z=  0.4611510E-02  Total=      0.0053226
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189963E+02         XY= -0.13289129E-01         XZ=  0.11287911E-01
                YY= -0.10161240E+02         YZ=  0.23057546E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67380316E-01 Y=  0.63415971E-11 Z=  0.69160649E-07   Total=     0.06738032
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.28470116E-01         XY= -0.63665172E+00         XZ= -0.56374581E+00
                YY=  0.12448342E+01         YZ=  0.65351457E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7346771E-02 Y=  0.4196466E-08 Z=  0.4611726E-02  Total=      0.0086743
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236852E+02         XY= -0.36733855E-01         XZ= -0.94752995E-02
                YY= -0.10161240E+02         YZ=  0.23058628E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42691011E-01 Y=  0.26709288E-11 Z=  0.12203669E-06   Total=     0.04269101
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43808893E+00         XY= -0.40337160E+00         XZ= -0.35717904E+00
                YY=  0.12448336E+01         YZ=  0.11530900E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9240302E-02 Y=  0.4197911E-08 Z=  0.4611871E-02  Total=      0.0103273
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255788E+02         XY= -0.46201514E-01         XZ= -0.17859806E-01
                YY= -0.10161240E+02         YZ=  0.23059353E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17589784E-02 Y= -0.12687595E-11 Z=  0.34142305E-08   Total=     0.00175898
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12115929E+01         XY= -0.16619938E-01         XZ= -0.14716963E-01
                YY=  0.12448330E+01         YZ=  0.32237042E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7617986E-02 Y=  0.4196466E-08 Z=  0.4611744E-02  Total=      0.0089052
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239565E+02         XY= -0.38089931E-01         XZ= -0.10676269E-01
                YY= -0.10161240E+02         YZ=  0.23058720E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39842289E-01 Y= -0.40396900E-11 Z= -0.12482577E-06   Total=     0.03984229
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19977444E+01         XY=  0.37645507E+00         XZ=  0.33334429E+00
                YY=  0.12448332E+01         YZ= -0.11794785E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3097066E-02 Y=  0.4194083E-08 Z=  0.4611520E-02  Total=      0.0055550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194355E+02         XY= -0.15485333E-01         XZ=  0.93428034E-02
                YY= -0.10161240E+02         YZ=  0.23057599E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66284679E-01 Y= -0.44698888E-11 Z= -0.88380074E-07   Total=     0.06628468
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24974336E+01         XY=  0.62629945E+00         XZ=  0.55457839E+00
                YY=  0.12448340E+01         YZ= -0.83511993E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2602373E-02 Y=  0.4198778E-08 Z=  0.4611507E-02  Total=      0.0052951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137361E+02         XY=  0.13011865E-01         XZ=  0.34581828E-01
                YY= -0.10161240E+02         YZ=  0.23057531E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67507612E-01 Y= -0.21975866E-11 Z=  0.60233860E-07   Total=     0.06750761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25205423E+01         XY=  0.63785450E+00         XZ=  0.56481168E+00
                YY=  0.12448343E+01         YZ=  0.56909764E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7311857E-02 Y=  0.4209398E-08 Z=  0.4611721E-02  Total=      0.0086447
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090266E+02         XY=  0.36559282E-01         XZ=  0.55438126E-01
                YY= -0.10161240E+02         YZ=  0.23058605E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43045805E-01 Y=  0.20461952E-11 Z=  0.11478301E-06   Total=     0.04304581
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20582800E+01         XY=  0.40672392E+00         XZ=  0.36014932E+00
                YY=  0.12448336E+01         YZ=  0.10845483E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9239558E-02 Y=  0.4210192E-08 Z=  0.4611868E-02  Total=      0.0103266
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070989E+02         XY=  0.46197790E-01         XZ=  0.63975388E-01
                YY= -0.10161240E+02         YZ=  0.23059338E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22062894E-02 Y=  0.65924787E-11 Z= -0.17844048E-09   Total=     0.00220629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12865255E+01         XY=  0.20846413E-01         XZ=  0.18459097E-01
                YY=  0.12448330E+01         YZ= -0.16416385E-08         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7652043E-02 Y=  0.4211276E-08 Z=  0.4611744E-02  Total=      0.0089343
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086864E+02         XY=  0.38260215E-01         XZ=  0.56944690E-01
                YY= -0.10161240E+02         YZ=  0.23058717E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39472654E-01 Y=  0.94288318E-11 Z= -0.12540566E-06   Total=     0.03947265
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49890924E+00         XY= -0.37296253E+00         XZ= -0.33025445E+00
                YY=  0.12448332E+01         YZ= -0.11848436E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3153315E-02 Y=  0.4212287E-08 Z=  0.4611519E-02  Total=      0.0055865
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131851E+02         XY=  0.15766574E-01         XZ=  0.37021624E-01
                YY= -0.10161240E+02         YZ=  0.23057593E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66133373E-01 Y=  0.90260066E-11 Z= -0.86706989E-07   Total=     0.06613337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.49049397E-02         XY= -0.62486981E+00         XZ= -0.55331455E+00
                YY=  0.12448340E+01         YZ= -0.81919764E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2544988E-02 Y=  0.4219078E-08 Z=  0.4611503E-02  Total=      0.0052672
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188834E+02         XY= -0.12724942E-01         XZ=  0.11787460E-01
                YY= -0.10161240E+02         YZ=  0.23057511E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67632231E-01 Y=  0.50538313E-11 Z=  0.64446930E-07   Total=     0.06763223
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.33230594E-01         XY= -0.63903197E+00         XZ= -0.56585361E+00
                YY=  0.12448343E+01         YZ=  0.60896645E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7274825E-02 Y=  0.4230492E-08 Z=  0.4611717E-02  Total=      0.0086134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236133E+02         XY= -0.36374129E-01         XZ= -0.91568522E-02
                YY= -0.10161240E+02         YZ=  0.23058582E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43398973E-01 Y= -0.13455040E-11 Z=  0.12107574E-06   Total=     0.04339897
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42471038E+00         XY= -0.41006087E+00         XZ= -0.36310246E+00
                YY=  0.12448337E+01         YZ=  0.11439775E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9236631E-02 Y=  0.4230998E-08 Z=  0.4611866E-02  Total=      0.0103240
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255751E+02         XY= -0.46183158E-01         XZ= -0.17843687E-01
                YY= -0.10161240E+02         YZ=  0.23059329E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26536856E-02 Y= -0.78997836E-11 Z=  0.52912317E-08   Total=     0.00265369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11946853E+01         XY= -0.25073695E-01         XZ= -0.22202852E-01
                YY=  0.12448330E+01         YZ=  0.49917558E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7684000E-02 Y=  0.4229697E-08 Z=  0.4611745E-02  Total=      0.0089617
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240225E+02         XY= -0.38420001E-01         XZ= -0.10968727E-01
                YY= -0.10161240E+02         YZ=  0.23058721E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39101191E-01 Y= -0.12076930E-10 Z= -0.12446104E-06   Total=     0.03910119
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19837397E+01         XY=  0.36945271E+00         XZ=  0.32714352E+00
                YY=  0.12448332E+01         YZ= -0.11760985E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3207669E-02 Y=  0.4228397E-08 Z=  0.4611519E-02  Total=      0.0056174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195461E+02         XY= -0.16038346E-01         XZ=  0.88528719E-02
                YY= -0.10161240E+02         YZ=  0.23057593E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65979099E-01 Y= -0.12148166E-10 Z= -0.91187374E-07   Total=     0.06597910
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24916590E+01         XY=  0.62341214E+00         XZ=  0.55202138E+00
                YY=  0.12448340E+01         YZ= -0.86170816E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2489238E-02 Y=  0.4232153E-08 Z=  0.4611499E-02  Total=      0.0052404
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138492E+02         XY=  0.12446186E-01         XZ=  0.34080636E-01
                YY= -0.10161240E+02         YZ=  0.23057495E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67753751E-01 Y= -0.79911244E-11 Z=  0.57574372E-07   Total=     0.06775375
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25251937E+01         XY=  0.64018017E+00         XZ=  0.56687069E+00
                YY=  0.12448343E+01         YZ=  0.54392178E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7239201E-02 Y=  0.4240389E-08 Z=  0.4611712E-02  Total=      0.0085834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090993E+02         XY=  0.36196001E-01         XZ=  0.55116169E-01
                YY= -0.10161240E+02         YZ=  0.23058558E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43749941E-01 Y= -0.12582337E-11 Z=  0.11586832E-06   Total=     0.04374994
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20715862E+01         XY=  0.41337703E+00         XZ=  0.36604030E+00
                YY=  0.12448337E+01         YZ=  0.10947764E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9234986E-02 Y=  0.4240533E-08 Z=  0.4611863E-02  Total=      0.0103225
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071035E+02         XY=  0.46174930E-01         XZ=  0.63954942E-01
                YY= -0.10161240E+02         YZ=  0.23059314E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31004377E-02 Y=  0.52153728E-11 Z=  0.33540351E-08   Total=     0.00310044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13034225E+01         XY=  0.29294891E-01         XZ=  0.25939913E-01
                YY=  0.12448330E+01         YZ=  0.31724782E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7717248E-02 Y=  0.4240822E-08 Z=  0.4611744E-02  Total=      0.0089902
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086212E+02         XY=  0.38586239E-01         XZ=  0.57233259E-01
                YY= -0.10161240E+02         YZ=  0.23058717E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38728774E-01 Y=  0.85580934E-11 Z= -0.12405466E-06   Total=     0.03872877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51296650E+00         XY= -0.36593388E+00         XZ= -0.32403082E+00
                YY=  0.12448332E+01         YZ= -0.11720849E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3263435E-02 Y=  0.4241689E-08 Z=  0.4611518E-02  Total=      0.0056494
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130750E+02         XY=  0.16317172E-01         XZ=  0.37509079E-01
                YY= -0.10161240E+02         YZ=  0.23057586E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65822864E-01 Y=  0.70974202E-11 Z= -0.89260289E-07   Total=     0.06582286
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96283695E-03         XY= -0.62193593E+00         XZ= -0.55071671E+00
                YY=  0.12448340E+01         YZ= -0.84333795E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2431912E-02 Y=  0.4249274E-08 Z=  0.4611495E-02  Total=      0.0052135
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187704E+02         XY= -0.12159560E-01         XZ=  0.12287980E-01
                YY= -0.10161240E+02         YZ=  0.23057475E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67873296E-01 Y=  0.11485416E-11 Z=  0.61555551E-07   Total=     0.06787330
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.37786027E-01         XY= -0.64130971E+00         XZ= -0.56787050E+00
                YY=  0.12448343E+01         YZ=  0.58161553E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7201879E-02 Y=  0.4260327E-08 Z=  0.4611707E-02  Total=      0.0085519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235404E+02         XY= -0.36009399E-01         XZ= -0.88340512E-02
                YY= -0.10161240E+02         YZ=  0.23058535E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44099938E-01 Y= -0.70161766E-11 Z=  0.12194954E-06   Total=     0.04409994
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41146409E+00         XY= -0.41668403E+00         XZ= -0.36896705E+00
                YY=  0.12448337E+01         YZ=  0.11521879E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9231638E-02 Y=  0.4260327E-08 Z=  0.4611861E-02  Total=      0.0103195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255701E+02         XY= -0.46158193E-01         XZ= -0.17821776E-01
                YY= -0.10161240E+02         YZ=  0.23059304E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35478789E-02 Y= -0.14049443E-10 Z=  0.91564676E-08   Total=     0.00354788
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11777875E+01         XY= -0.33522597E-01         XZ= -0.29684034E-01
                YY=  0.12448331E+01         YZ=  0.86389376E-07         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7748930E-02 Y=  0.4259027E-08 Z=  0.4611745E-02  Total=      0.0090174
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240874E+02         XY= -0.38744653E-01         XZ= -0.11256428E-01
                YY= -0.10161240E+02         YZ=  0.23058721E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38353967E-01 Y= -0.16918426E-10 Z= -0.12199493E-06   Total=     0.03835397
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19696192E+01         XY=  0.36239247E+00         XZ=  0.32089198E+00
                YY=  0.12448333E+01         YZ= -0.11528353E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3317891E-02 Y=  0.4256499E-08 Z=  0.4611518E-02  Total=      0.0056811
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196564E+02         XY= -0.16589459E-01         XZ=  0.83646020E-02
                YY= -0.10161240E+02         YZ=  0.23057587E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65663124E-01 Y= -0.14222560E-10 Z= -0.92047377E-07   Total=     0.06566312
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24856879E+01         XY=  0.62042661E+00         XZ=  0.54937787E+00
                YY=  0.12448340E+01         YZ= -0.86984885E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2375584E-02 Y=  0.4259822E-08 Z=  0.4611492E-02  Total=      0.0051874
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139629E+02         XY=  0.11877919E-01         XZ=  0.33577149E-01
                YY= -0.10161240E+02         YZ=  0.23057460E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67989213E-01 Y= -0.68563970E-11 Z=  0.56399145E-07   Total=     0.06798921
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25296433E+01         XY=  0.64240497E+00         XZ=  0.56884078E+00
                YY=  0.12448343E+01         YZ=  0.53282958E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7165279E-02 Y=  0.4268491E-08 Z=  0.4611703E-02  Total=      0.0085211
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091732E+02         XY=  0.35826393E-01         XZ=  0.54788617E-01
                YY= -0.10161240E+02         YZ=  0.23058512E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44447204E-01 Y=  0.22962994E-11 Z=  0.11783543E-06   Total=     0.04444720
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20847626E+01         XY=  0.41996522E+00         XZ=  0.37187404E+00
                YY=  0.12448337E+01         YZ=  0.11133953E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9228837E-02 Y=  0.4269285E-08 Z=  0.4611858E-02  Total=      0.0103170
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071097E+02         XY=  0.46144184E-01         XZ=  0.63927529E-01
                YY= -0.10161240E+02         YZ=  0.23059290E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39941457E-02 Y=  0.95401332E-11 Z=  0.72354980E-08   Total=     0.00399415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13203111E+01         XY=  0.37739208E-01         XZ=  0.33417152E-01
                YY=  0.12448331E+01         YZ=  0.68438189E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7781120E-02 Y=  0.4270874E-08 Z=  0.4611744E-02  Total=      0.0090451
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085574E+02         XY=  0.38905599E-01         XZ=  0.57515941E-01
                YY= -0.10161240E+02         YZ=  0.23058719E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37978732E-01 Y=  0.11930540E-10 Z= -0.12271049E-06   Total=     0.03797873
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52714023E+00         XY= -0.35884701E+00         XZ= -0.31775569E+00
                YY=  0.12448333E+01         YZ= -0.11593533E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3372928E-02 Y=  0.4272392E-08 Z=  0.4611517E-02  Total=      0.0057134
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129655E+02         XY=  0.16864639E-01         XZ=  0.37993773E-01
                YY= -0.10161240E+02         YZ=  0.23057582E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65501940E-01 Y=  0.85526518E-11 Z= -0.91972567E-07   Total=     0.06550194
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70274477E-02         XY= -0.61890364E+00         XZ= -0.54803197E+00
                YY=  0.12448341E+01         YZ= -0.86895013E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2318561E-02 Y=  0.4278460E-08 Z=  0.4611489E-02  Total=      0.0051615
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186570E+02         XY= -0.11592805E-01         XZ=  0.12789713E-01
                YY= -0.10161240E+02         YZ=  0.23057441E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68103670E-01 Y=  0.95150299E-12 Z=  0.58571628E-07   Total=     0.06810367
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.42139415E-01         XY= -0.64348643E+00         XZ= -0.56979831E+00
                YY=  0.12448344E+01         YZ=  0.55342298E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7127909E-02 Y=  0.4288068E-08 Z=  0.4611698E-02  Total=      0.0084897
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234664E+02         XY= -0.35639547E-01         XZ= -0.85067351E-02
                YY= -0.10161240E+02         YZ=  0.23058489E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44794027E-01 Y= -0.74948675E-11 Z=  0.12298291E-06   Total=     0.04479403
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39834773E+00         XY= -0.42324222E+00         XZ= -0.37477454E+00
                YY=  0.12448338E+01         YZ=  0.11619510E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9225309E-02 Y=  0.4288068E-08 Z=  0.4611856E-02  Total=      0.0103139
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255638E+02         XY= -0.46126546E-01         XZ= -0.17793988E-01
                YY= -0.10161240E+02         YZ=  0.23059280E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44416611E-02 Y= -0.13005185E-10 Z=  0.13454673E-07   Total=     0.00444166
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11608974E+01         XY= -0.41967616E-01         XZ= -0.37162217E-01
                YY=  0.12448331E+01         YZ=  0.12701347E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7812771E-02 Y=  0.4286551E-08 Z=  0.4611745E-02  Total=      0.0090724
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241513E+02         XY= -0.39063859E-01         XZ= -0.11539364E-01
                YY= -0.10161240E+02         YZ=  0.23058723E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37600496E-01 Y= -0.13016752E-10 Z= -0.11903840E-06   Total=     0.03760050
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19553806E+01         XY=  0.35527320E+00         XZ=  0.31458778E+00
                YY=  0.12448333E+01         YZ= -0.11248643E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3427740E-02 Y=  0.4285323E-08 Z=  0.4611517E-02  Total=      0.0057459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197662E+02         XY= -0.17138702E-01         XZ=  0.78779185E-02
                YY= -0.10161240E+02         YZ=  0.23057584E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65336584E-01 Y= -0.72966986E-11 Z= -0.92667424E-07   Total=     0.06533658
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24795172E+01         XY=  0.61734125E+00         XZ=  0.54664570E+00
                YY=  0.12448341E+01         YZ= -0.87564643E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2261392E-02 Y=  0.4291174E-08 Z=  0.4611486E-02  Total=      0.0051361
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140771E+02         XY=  0.11306957E-01         XZ=  0.33071198E-01
                YY= -0.10161240E+02         YZ=  0.23057428E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68213790E-01 Y=  0.19474074E-11 Z=  0.55096123E-07   Total=     0.06821379
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25338873E+01         XY=  0.64452691E+00         XZ=  0.57071971E+00
                YY=  0.12448344E+01         YZ=  0.52059440E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7090054E-02 Y=  0.4300421E-08 Z=  0.4611694E-02  Total=      0.0084579
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092484E+02         XY=  0.35450270E-01         XZ=  0.54455220E-01
                YY= -0.10161240E+02         YZ=  0.23058468E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45137406E-01 Y=  0.11009163E-10 Z=  0.11951324E-06   Total=     0.04513741
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20978055E+01         XY=  0.42648667E+00         XZ=  0.37764880E+00
                YY=  0.12448338E+01         YZ=  0.11293239E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9221063E-02 Y=  0.4301288E-08 Z=  0.4611854E-02  Total=      0.0103101
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071174E+02         XY=  0.46105311E-01         XZ=  0.63892851E-01
                YY= -0.10161240E+02         YZ=  0.23059268E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48873349E-02 Y=  0.16273101E-10 Z=  0.11015036E-07   Total=     0.00488733
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13371899E+01         XY=  0.46178623E-01         XZ=  0.40890353E-01
                YY=  0.12448331E+01         YZ=  0.10420855E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7843612E-02 Y=  0.4302660E-08 Z=  0.4611745E-02  Total=      0.0090989
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084949E+02         XY=  0.39218059E-01         XZ=  0.57792464E-01
                YY= -0.10161240E+02         YZ=  0.23058723E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37222400E-01 Y=  0.15760008E-10 Z= -0.12110986E-06   Total=     0.03722240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54143282E+00         XY= -0.35170071E+00         XZ= -0.31142747E+00
                YY=  0.12448333E+01         YZ= -0.11441950E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3481770E-02 Y=  0.4302733E-08 Z=  0.4611516E-02  Total=      0.0057783
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128567E+02         XY=  0.17408846E-01         XZ=  0.38475552E-01
                YY= -0.10161240E+02         YZ=  0.23057580E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65170215E-01 Y=  0.99566004E-11 Z= -0.94214493E-07   Total=     0.06517021
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13296173E-01         XY= -0.61576929E+00         XZ= -0.54525626E+00
                YY=  0.12448341E+01         YZ= -0.89011915E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2204921E-02 Y=  0.4309307E-08 Z=  0.4611482E-02  Total=      0.0051115
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185434E+02         XY= -0.11024605E-01         XZ=  0.13292726E-01
                YY= -0.10161240E+02         YZ=  0.23057410E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68322727E-01 Y=  0.15753440E-11 Z=  0.55962240E-07   Total=     0.06832273
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.46278940E-01         XY= -0.64555621E+00         XZ= -0.57163076E+00
                YY=  0.12448344E+01         YZ=  0.52877541E-06         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7052843E-02 Y=  0.4319420E-08 Z=  0.4611689E-02  Total=      0.0084268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233913E+02         XY= -0.35264219E-01         XZ= -0.81745414E-02
                YY= -0.10161240E+02         YZ=  0.23058445E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45480471E-01 Y= -0.56403224E-11 Z=  0.12405648E-06   Total=     0.04548047
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38537584E+00         XY= -0.42972817E+00         XZ= -0.38051742E+00
                YY=  0.12448338E+01         YZ=  0.11721127E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9217510E-02 Y=  0.4319493E-08 Z=  0.4611852E-02  Total=      0.0103069
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255560E+02         XY= -0.46087554E-01         XZ= -0.17759642E-01
                YY= -0.10161240E+02         YZ=  0.23059257E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53342695E-02 Y= -0.85335206E-11 Z=  0.17382027E-07   Total=     0.00533427
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11440296E+01         XY= -0.50401543E-01         XZ= -0.44630019E-01
                YY=  0.12448331E+01         YZ=  0.16416137E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7875336E-02 Y=  0.4319420E-08 Z=  0.4611746E-02  Total=      0.0091263
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242138E+02         XY= -0.39376683E-01         XZ= -0.11816574E-01
                YY= -0.10161240E+02         YZ=  0.23058727E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36841374E-01 Y= -0.58656132E-11 Z= -0.11683351E-06   Total=     0.03684137
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19410353E+01         XY=  0.34810053E+00         XZ=  0.30823672E+00
                YY=  0.12448333E+01         YZ= -0.11039690E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3536990E-02 Y=  0.4319637E-08 Z=  0.4611517E-02  Total=      0.0058117
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198755E+02         XY= -0.17684954E-01         XZ=  0.73939704E-02
                YY= -0.10161240E+02         YZ=  0.23057583E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64999794E-01 Y=  0.12067645E-11 Z= -0.94327250E-07   Total=     0.06499979
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24731528E+01         XY=  0.61415904E+00         XZ=  0.54382800E+00
                YY=  0.12448341E+01         YZ= -0.89125627E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2146897E-02 Y=  0.4326066E-08 Z=  0.4611480E-02  Total=      0.0050867
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141916E+02         XY=  0.10734481E-01         XZ=  0.32563999E-01
                YY= -0.10161239E+02         YZ=  0.23057399E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68427476E-01 Y=  0.96967074E-11 Z=  0.52636181E-07   Total=     0.06842748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25379254E+01         XY=  0.64654595E+00         XZ=  0.57250751E+00
                YY=  0.12448344E+01         YZ=  0.49741800E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7013751E-02 Y=  0.4336469E-08 Z=  0.4611685E-02  Total=      0.0083941
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093247E+02         XY=  0.35068754E-01         XZ=  0.54117133E-01
                YY= -0.10161240E+02         YZ=  0.23058425E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45820261E-01 Y=  0.16121273E-10 Z=  0.12013129E-06   Total=     0.04582026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21107096E+01         XY=  0.43293872E+00         XZ=  0.38336189E+00
                YY=  0.12448338E+01         YZ=  0.11352081E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9211857E-02 Y=  0.4338925E-08 Z=  0.4611850E-02  Total=      0.0103018
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071266E+02         XY=  0.46059281E-01         XZ=  0.63851909E-01
                YY= -0.10161240E+02         YZ=  0.23059246E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57795481E-02 Y=  0.18002904E-10 Z=  0.13943841E-07   Total=     0.00577955
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13540503E+01         XY=  0.54608816E-01         XZ=  0.48355000E-01
                YY=  0.12448331E+01         YZ=  0.13189775E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7904881E-02 Y=  0.4340948E-08 Z=  0.4611746E-02  Total=      0.0091518
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084336E+02         XY=  0.39524402E-01         XZ=  0.58063625E-01
                YY= -0.10161240E+02         YZ=  0.23058727E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36460286E-01 Y=  0.14885509E-10 Z= -0.12025979E-06   Total=     0.03646029
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55583465E+00         XY= -0.34449978E+00         XZ= -0.30505138E+00
                YY=  0.12448333E+01         YZ= -0.11361688E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3590077E-02 Y=  0.4342032E-08 Z=  0.4611516E-02  Total=      0.0058442
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127484E+02         XY=  0.17950384E-01         XZ=  0.38955004E-01
                YY= -0.10161239E+02         YZ=  0.23057579E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64828147E-01 Y=  0.84422417E-11 Z= -0.97352563E-07   Total=     0.06482815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19760319E-01         XY= -0.61253722E+00         XZ= -0.54239458E+00
                YY=  0.12448341E+01         YZ= -0.91978056E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2090904E-02 Y=  0.4342826E-08 Z=  0.4611476E-02  Total=      0.0050634
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10184294E+02         XY= -0.10454522E-01         XZ=  0.13797422E-01
                YY= -0.10161239E+02         YZ=  0.23057380E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68530827E-01 Y=  0.16653415E-11 Z=  0.52163851E-07   Total=     0.06853083
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.50211429E-01         XY= -0.64752247E+00         XZ= -0.57337208E+00
                YY=  0.12448344E+01         YZ=  0.49288849E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6976617E-02 Y=  0.4351856E-08 Z=  0.4611681E-02  Total=      0.0083631
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233151E+02         XY= -0.34883089E-01         XZ= -0.78372147E-02
                YY= -0.10161240E+02         YZ=  0.23058401E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46159530E-01 Y= -0.24726663E-11 Z=  0.12373981E-06   Total=     0.04615953
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37254348E+00         XY= -0.43614435E+00         XZ= -0.38619896E+00
                YY=  0.12448338E+01         YZ=  0.11691491E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9208193E-02 Y=  0.4351495E-08 Z=  0.4611847E-02  Total=      0.0102985
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255467E+02         XY= -0.46040966E-01         XZ= -0.17718590E-01
                YY= -0.10161240E+02         YZ=  0.23059234E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62258914E-02 Y= -0.22836126E-11 Z=  0.19927035E-07   Total=     0.00622589
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11271803E+01         XY= -0.58826148E-01         XZ= -0.52089830E-01
                YY=  0.12448331E+01         YZ=  0.18826244E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7936585E-02 Y=  0.4350917E-08 Z=  0.4611746E-02  Total=      0.0091792
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242751E+02         XY= -0.39682927E-01         XZ= -0.12087983E-01
                YY= -0.10161240E+02         YZ=  0.23058730E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36076464E-01 Y=  0.19907596E-11 Z= -0.11589848E-06   Total=     0.03607646
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19265805E+01         XY=  0.34087318E+00         XZ=  0.30183718E+00
                YY=  0.12448333E+01         YZ= -0.10950668E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3645611E-02 Y=  0.4349617E-08 Z=  0.4611517E-02  Total=      0.0058785
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199841E+02         XY= -0.18228056E-01         XZ=  0.69127902E-02
                YY= -0.10161239E+02         YZ=  0.23057581E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64652668E-01 Y=  0.83965054E-11 Z= -0.97205420E-07   Total=     0.06465267
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24665931E+01         XY=  0.61087919E+00         XZ=  0.54092402E+00
                YY=  0.12448340E+01         YZ= -0.91838934E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2032128E-02 Y=  0.4348822E-08 Z=  0.4611474E-02  Total=      0.0050394
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143064E+02         XY=  0.10160639E-01         XZ=  0.32055580E-01
                YY= -0.10161239E+02         YZ=  0.23057368E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68630270E-01 Y=  0.14207738E-10 Z=  0.48936808E-07   Total=     0.06863027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25417577E+01         XY=  0.64846208E+00         XZ=  0.57420462E+00
                YY=  0.12448344E+01         YZ=  0.46250313E-06         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6936404E-02 Y=  0.4358069E-08 Z=  0.4611677E-02  Total=      0.0083295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094021E+02         XY=  0.34682018E-01         XZ=  0.53774435E-01
                YY= -0.10161239E+02         YZ=  0.23058381E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46495903E-01 Y=  0.17138000E-10 Z=  0.11955835E-06   Total=     0.04649590
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21234774E+01         XY=  0.43932261E+00         XZ=  0.38901526E+00
                YY=  0.12448338E+01         YZ=  0.11298044E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9201271E-02 Y=  0.4359947E-08 Z=  0.4611845E-02  Total=      0.0102924
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071372E+02         XY=  0.46006353E-01         XZ=  0.63804899E-01
                YY= -0.10161239E+02         YZ=  0.23059222E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66710856E-02 Y=  0.16279431E-10 Z=  0.15892390E-07   Total=     0.00667109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13708978E+01         XY=  0.63032624E-01         XZ=  0.55814743E-01
                YY=  0.12448331E+01         YZ=  0.15029590E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7965007E-02 Y=  0.4361753E-08 Z=  0.4611746E-02  Total=      0.0092038
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083735E+02         XY=  0.39825031E-01         XZ=  0.58329799E-01
                YY= -0.10161239E+02         YZ=  0.23058729E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35691931E-01 Y=  0.12379670E-10 Z= -0.12010798E-06   Total=     0.03569193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.57035440E+00         XY= -0.33723988E+00         XZ= -0.29862230E+00
                YY=  0.12448333E+01         YZ= -0.11347538E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3697972E-02 Y=  0.4361753E-08 Z=  0.4611516E-02  Total=      0.0059111
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126405E+02         XY=  0.18489858E-01         XZ=  0.39432732E-01
                YY= -0.10161239E+02         YZ=  0.23057577E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64475181E-01 Y=  0.73796947E-11 Z= -0.10101759E-06   Total=     0.06447518
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26430393E-01         XY= -0.60920217E+00         XZ= -0.53944101E+00
                YY=  0.12448340E+01         YZ= -0.95441731E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1976347E-02 Y=  0.4362042E-08 Z=  0.4611470E-02  Total=      0.0050171
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183148E+02         XY= -0.98817363E-02         XZ=  0.14304642E-01
                YY= -0.10161239E+02         YZ=  0.23057348E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68727423E-01 Y=  0.34698639E-11 Z=  0.47813194E-07   Total=     0.06872742
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.53926564E-01         XY= -0.64938004E+00         XZ= -0.57501664E+00
                YY=  0.12448344E+01         YZ=  0.45179732E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6899029E-02 Y=  0.4373023E-08 Z=  0.4611671E-02  Total=      0.0082984
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232375E+02         XY= -0.34495149E-01         XZ= -0.74937115E-02
                YY= -0.10161239E+02         YZ=  0.23058355E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46830794E-01 Y=  0.21178874E-11 Z=  0.12270031E-06   Total=     0.04683079
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.35985841E+00         XY= -0.44248688E+00         XZ= -0.39181501E+00
                YY=  0.12448338E+01         YZ=  0.11593669E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9197133E-02 Y=  0.4375696E-08 Z=  0.4611842E-02  Total=      0.0102887
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255357E+02         XY= -0.45985666E-01         XZ= -0.17669672E-01
                YY= -0.10161239E+02         YZ=  0.23059207E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.71163590E-02 Y=  0.35002395E-11 Z=  0.21522563E-07   Total=     0.00711636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11103529E+01         XY= -0.67239848E-01         XZ= -0.59540011E-01
                YY=  0.12448331E+01         YZ=  0.20338730E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7996295E-02 Y=  0.4375768E-08 Z=  0.4611746E-02  Total=      0.0092309
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243348E+02         XY= -0.39981475E-01         XZ= -0.12352434E-01
                YY= -0.10161239E+02         YZ=  0.23058729E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35305631E-01 Y=  0.65581110E-11 Z= -0.11614880E-06   Total=     0.03530563
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19120139E+01         XY=  0.33358987E+00         XZ=  0.29538779E+00
                YY=  0.12448332E+01         YZ= -0.10973931E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3753402E-02 Y=  0.4374179E-08 Z=  0.4611516E-02  Total=      0.0059459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200919E+02         XY= -0.18767014E-01         XZ=  0.64354025E-02
                YY= -0.10161239E+02         YZ=  0.23057577E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64294777E-01 Y=  0.96002243E-11 Z= -0.10144875E-06   Total=     0.06429478
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24598299E+01         XY=  0.60749760E+00         XZ=  0.53792941E+00
                YY=  0.12448340E+01         YZ= -0.95847250E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1917238E-02 Y=  0.4373167E-08 Z=  0.4611467E-02  Total=      0.0049941
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144213E+02         XY=  0.95861898E-02         XZ=  0.31546718E-01
                YY= -0.10161239E+02         YZ=  0.23057334E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68821509E-01 Y=  0.11129762E-10 Z=  0.43890413E-07   Total=     0.06882151
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25453715E+01         XY=  0.65026902E+00         XZ=  0.57580432E+00
                YY=  0.12448344E+01         YZ=  0.41479611E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6858103E-02 Y=  0.4381403E-08 Z=  0.4611667E-02  Total=      0.0082644
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094804E+02         XY=  0.34290514E-01         XZ=  0.53427575E-01
                YY= -0.10161239E+02         YZ=  0.23058332E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47163540E-01 Y=  0.10497728E-10 Z=  0.11796844E-06   Total=     0.04716354
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21360939E+01         XY=  0.44563087E+00         XZ=  0.39460086E+00
                YY=  0.12448338E+01         YZ=  0.11147266E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9189329E-02 Y=  0.4382559E-08 Z=  0.4611839E-02  Total=      0.0102817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071492E+02         XY=  0.45946642E-01         XZ=  0.63751907E-01
                YY= -0.10161239E+02         YZ=  0.23059192E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.75611473E-02 Y=  0.80961705E-11 Z=  0.17373680E-07   Total=     0.00756115
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13877175E+01         XY=  0.71442488E-01         XZ=  0.63261384E-01
                YY=  0.12448331E+01         YZ=  0.16422374E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8023950E-02 Y=  0.4385015E-08 Z=  0.4611745E-02  Total=      0.0092548
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083146E+02         XY=  0.40119746E-01         XZ=  0.58590733E-01
                YY= -0.10161239E+02         YZ=  0.23058725E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34918034E-01 Y=  0.50415325E-11 Z= -0.11995252E-06   Total=     0.03491803
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58497887E+00         XY= -0.32992761E+00         XZ= -0.29214747E+00
                YY=  0.12448332E+01         YZ= -0.11333463E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3805362E-02 Y=  0.4385159E-08 Z=  0.4611514E-02  Total=      0.0059789
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10125331E+02         XY=  0.19026808E-01         XZ=  0.39908204E-01
                YY= -0.10161239E+02         YZ=  0.23057570E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64111832E-01 Y=  0.25500397E-11 Z= -0.10453929E-06   Total=     0.06411183
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33296659E-01         XY= -0.60576902E+00         XZ= -0.53640098E+00
                YY=  0.12448340E+01         YZ= -0.98773313E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1861375E-02 Y=  0.4386171E-08 Z=  0.4611463E-02  Total=      0.0049730
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181999E+02         XY= -0.93068748E-02         XZ=  0.14813667E-01
                YY= -0.10161239E+02         YZ=  0.23057313E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68912801E-01 Y=  0.13357066E-11 Z=  0.43456749E-07   Total=     0.06891280
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.57429706E-01         XY= -0.65113161E+00         XZ= -0.57656747E+00
                YY=  0.12448343E+01         YZ=  0.41061675E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6820219E-02 Y=  0.4396573E-08 Z=  0.4611661E-02  Total=      0.0082330
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231587E+02         XY= -0.34101096E-01         XZ= -0.71448264E-02
                YY= -0.10161239E+02         YZ=  0.23058304E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47494301E-01 Y=  0.13286042E-11 Z=  0.12151036E-06   Total=     0.04749430
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34731993E+00         XY= -0.44875611E+00         XZ= -0.39736600E+00
                YY=  0.12448338E+01         YZ=  0.11481165E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9184463E-02 Y=  0.4397440E-08 Z=  0.4611836E-02  Total=      0.0102773
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255230E+02         XY= -0.45922318E-01         XZ= -0.17613646E-01
                YY= -0.10161239E+02         YZ=  0.23059176E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.80054774E-02 Y=  0.18278130E-11 Z=  0.23076337E-07   Total=     0.00800548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10935509E+01         XY= -0.75640799E-01         XZ= -0.66978491E-01
                YY=  0.12448331E+01         YZ=  0.21805375E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8054574E-02 Y=  0.4397657E-08 Z=  0.4611745E-02  Total=      0.0092814
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243931E+02         XY= -0.40272871E-01         XZ= -0.12610547E-01
                YY= -0.10161239E+02         YZ=  0.23058724E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34529266E-01 Y=  0.19775763E-11 Z= -0.11609268E-06   Total=     0.03452927
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18973426E+01         XY=  0.32625428E+00         XZ=  0.28889272E+00
                YY=  0.12448332E+01         YZ= -0.10969019E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3860437E-02 Y=  0.4397585E-08 Z=  0.4611514E-02  Total=      0.0060141
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201989E+02         XY= -0.19302185E-01         XZ=  0.59614039E-02
                YY= -0.10161239E+02         YZ=  0.23057568E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63926644E-01 Y=  0.12898760E-11 Z= -0.10500259E-06   Total=     0.06392664
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24528732E+01         XY=  0.60401925E+00         XZ=  0.53484986E+00
                YY=  0.12448340E+01         YZ= -0.99212171E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1802202E-02 Y=  0.4397874E-08 Z=  0.4611460E-02  Total=      0.0049511
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145363E+02         XY=  0.90110058E-02         XZ=  0.31037273E-01
                YY= -0.10161239E+02         YZ=  0.23057296E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69001781E-01 Y= -0.75180111E-13 Z=  0.39779147E-07   Total=     0.06900178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25487782E+01         XY=  0.65197234E+00         XZ=  0.57731303E+00
                YY=  0.12448343E+01         YZ=  0.37585582E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6778870E-02 Y=  0.4406832E-08 Z=  0.4611656E-02  Total=      0.0081988
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095596E+02         XY=  0.33894350E-01         XZ=  0.53076688E-01
                YY= -0.10161239E+02         YZ=  0.23058279E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47823744E-01 Y= -0.14180055E-11 Z=  0.11738331E-06   Total=     0.04782374
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21485699E+01         XY=  0.45186890E+00         XZ=  0.40012495E+00
                YY=  0.12448338E+01         YZ=  0.11090975E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9176094E-02 Y=  0.4406398E-08 Z=  0.4611832E-02  Total=      0.0102698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071624E+02         XY=  0.45880468E-01         XZ=  0.63693317E-01
                YY= -0.10161239E+02         YZ=  0.23059158E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.84502045E-02 Y= -0.19334926E-11 Z=  0.19773988E-07   Total=     0.00845020
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14045182E+01         XY=  0.79842861E-01         XZ=  0.70700144E-01
                YY=  0.12448331E+01         YZ=  0.18681878E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8081805E-02 Y=  0.4407121E-08 Z=  0.4611744E-02  Total=      0.0093050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082567E+02         XY=  0.40409023E-01         XZ=  0.58846994E-01
                YY= -0.10161239E+02         YZ=  0.23058719E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34138292E-01 Y= -0.12257485E-11 Z= -0.11910754E-06   Total=     0.03413829
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59971380E+00         XY= -0.32256011E+00         XZ= -0.28562343E+00
                YY=  0.12448332E+01         YZ= -0.11254155E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3912359E-02 Y=  0.4408782E-08 Z=  0.4611513E-02  Total=      0.0060475
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124262E+02         XY=  0.19561794E-01         XZ=  0.40382086E-01
                YY= -0.10161239E+02         YZ=  0.23057561E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63738011E-01 Y=  0.39374703E-12 Z= -0.10768943E-06   Total=     0.06373801
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40360844E-01         XY= -0.60223692E+00         XZ= -0.53327329E+00
                YY=  0.12448339E+01         YZ= -0.10175163E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1745877E-02 Y=  0.4410588E-08 Z=  0.4611455E-02  Total=      0.0049309
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180844E+02         XY= -0.87293858E-02         XZ=  0.15325166E-01
                YY= -0.10161239E+02         YZ=  0.23057274E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69087097E-01 Y=  0.20089416E-11 Z=  0.39217450E-07   Total=     0.06908710
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.60723402E-01         XY= -0.65277846E+00         XZ= -0.57802578E+00
                YY=  0.12448343E+01         YZ=  0.37056623E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6740094E-02 Y=  0.4421208E-08 Z=  0.4611650E-02  Total=      0.0081668
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230786E+02         XY= -0.33700471E-01         XZ= -0.67899864E-02
                YY= -0.10161239E+02         YZ=  0.23058250E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48150394E-01 Y=  0.25718119E-11 Z=  0.12039661E-06   Total=     0.04815039
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33492156E+00         XY= -0.45495529E+00         XZ= -0.40285540E+00
                YY=  0.12448338E+01         YZ=  0.11376029E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9170125E-02 Y=  0.4422580E-08 Z=  0.4611828E-02  Total=      0.0102645
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255087E+02         XY= -0.45850628E-01         XZ= -0.17550120E-01
                YY= -0.10161239E+02         YZ=  0.23059140E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.88937551E-02 Y=  0.15074667E-11 Z=  0.24856229E-07   Total=     0.00889376
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10767648E+01         XY= -0.84033807E-01         XZ= -0.74410514E-01
                YY=  0.12448331E+01         YZ=  0.23486800E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8111408E-02 Y=  0.4422147E-08 Z=  0.4611743E-02  Total=      0.0093308
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244499E+02         XY= -0.40557040E-01         XZ= -0.12862174E-01
                YY= -0.10161239E+02         YZ=  0.23058715E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33746754E-01 Y= -0.87538632E-12 Z= -0.11567161E-06   Total=     0.03374675
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18825552E+01         XY=  0.31886061E+00         XZ=  0.28234556E+00
                YY=  0.12448332E+01         YZ= -0.10929478E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3966748E-02 Y=  0.4420702E-08 Z=  0.4611512E-02  Total=      0.0060829
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203053E+02         XY= -0.19833744E-01         XZ=  0.54906631E-02
                YY= -0.10161239E+02         YZ=  0.23057557E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63547611E-01 Y= -0.34186481E-11 Z= -0.10822825E-06   Total=     0.06354761
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24457105E+01         XY=  0.60043791E+00         XZ=  0.53167844E+00
                YY=  0.12448339E+01         YZ= -0.10226398E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1686931E-02 Y=  0.4419402E-08 Z=  0.4611452E-02  Total=      0.0049103
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146516E+02         XY=  0.84346537E-02         XZ=  0.30526827E-01
                YY= -0.10161239E+02         YZ=  0.23057256E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69170441E-01 Y= -0.46224288E-11 Z=  0.35856519E-07   Total=     0.06917044
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25519654E+01         XY=  0.65356595E+00         XZ=  0.57872400E+00
                YY=  0.12448343E+01         YZ=  0.33875373E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6698570E-02 Y=  0.4427204E-08 Z=  0.4611645E-02  Total=      0.0081325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096400E+02         XY=  0.33492850E-01         XZ=  0.52721083E-01
                YY= -0.10161239E+02         YZ=  0.23058222E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48475934E-01 Y= -0.34029367E-11 Z=  0.11698482E-06   Total=     0.04847593
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21608945E+01         XY=  0.45803120E+00         XZ=  0.40558156E+00
                YY=  0.12448338E+01         YZ=  0.11053153E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9161389E-02 Y=  0.4427637E-08 Z=  0.4611824E-02  Total=      0.0102567
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071771E+02         XY=  0.45806944E-01         XZ=  0.63628212E-01
                YY= -0.10161239E+02         YZ=  0.23059120E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.93377953E-02 Y=  0.27384238E-12 Z=  0.22629514E-07   Total=     0.00933780
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14212912E+01         XY=  0.88229379E-01         XZ=  0.78126393E-01
                YY=  0.12448331E+01         YZ=  0.21381775E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8138365E-02 Y=  0.4429299E-08 Z=  0.4611742E-02  Total=      0.0093542
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082002E+02         XY=  0.40691822E-01         XZ=  0.59097506E-01
                YY= -0.10161239E+02         YZ=  0.23058708E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33352998E-01 Y=  0.52268072E-11 Z= -0.11740306E-06   Total=     0.03335300
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61455368E+00         XY= -0.31514016E+00         XZ= -0.27905296E+00
                YY=  0.12448332E+01         YZ= -0.11092567E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4018739E-02 Y=  0.4430743E-08 Z=  0.4611510E-02  Total=      0.0061169
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123198E+02         XY=  0.20093695E-01         XZ=  0.40853229E-01
                YY= -0.10161239E+02         YZ=  0.23057548E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63353794E-01 Y=  0.94951489E-11 Z= -0.10970839E-06   Total=     0.06335379
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.47621496E-01         XY= -0.59860660E+00         XZ= -0.53005841E+00
                YY=  0.12448339E+01         YZ= -0.10365167E-05         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1630075E-02 Y=  0.4433127E-08 Z=  0.4611447E-02  Total=      0.0048911
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179686E+02         XY= -0.81503775E-02         XZ=  0.15838016E-01
                YY= -0.10161239E+02         YZ=  0.23057233E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69250140E-01 Y=  0.11214605E-10 Z=  0.36106024E-07   Total=     0.06925014
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.63804429E-01         XY= -0.65431899E+00         XZ= -0.57938955E+00
                YY=  0.12448343E+01         YZ=  0.34124413E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6658853E-02 Y=  0.4443747E-08 Z=  0.4611639E-02  Total=      0.0080998
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229974E+02         XY= -0.33294268E-01         XZ= -0.64301837E-02
                YY= -0.10161239E+02         YZ=  0.23058193E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48798654E-01 Y=  0.95346676E-11 Z=  0.12020498E-06   Total=     0.04879865
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32267123E+00         XY= -0.46108046E+00         XZ= -0.40827871E+00
                YY=  0.12448338E+01         YZ=  0.11358498E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9154277E-02 Y=  0.4444686E-08 Z=  0.4611821E-02  Total=      0.0102504
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254928E+02         XY= -0.45771389E-01         XZ= -0.17479861E-01
                YY= -0.10161239E+02         YZ=  0.23059101E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.97805649E-02 Y=  0.51264684E-11 Z=  0.27300479E-07   Total=     0.00978056
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10600065E+01         XY= -0.92412946E-01         XZ= -0.81829642E-01
                YY=  0.12448331E+01         YZ=  0.25799230E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8166901E-02 Y=  0.4444975E-08 Z=  0.4611741E-02  Total=      0.0093790
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245054E+02         XY= -0.40834507E-01         XZ= -0.13107792E-01
                YY= -0.10161239E+02         YZ=  0.23058703E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32958839E-01 Y= -0.23082382E-14 Z= -0.11481777E-06   Total=     0.03295884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18676658E+01         XY=  0.31141589E+00         XZ=  0.27575381E+00
                YY=  0.12448332E+01         YZ= -0.10848738E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4072385E-02 Y=  0.4444758E-08 Z=  0.4611509E-02  Total=      0.0061523
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204109E+02         XY= -0.20361925E-01         XZ=  0.50230122E-02
                YY= -0.10161239E+02         YZ=  0.23057543E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63158418E-01 Y= -0.33520024E-11 Z= -0.11121267E-06   Total=     0.06315842
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24383558E+01         XY=  0.59676057E+00         XZ=  0.52842256E+00
                YY=  0.12448339E+01         YZ= -0.10508388E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1571432E-02 Y=  0.4444252E-08 Z=  0.4611443E-02  Total=      0.0048718
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10147671E+02         XY=  0.78571598E-02         XZ=  0.30015488E-01
                YY= -0.10161239E+02         YZ=  0.23057213E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69328091E-01 Y= -0.30745228E-11 Z=  0.32056367E-07   Total=     0.06932809
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25549446E+01         XY=  0.65505552E+00         XZ=  0.58004326E+00
                YY=  0.12448343E+01         YZ=  0.30285959E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6617245E-02 Y=  0.4452921E-08 Z=  0.4611633E-02  Total=      0.0080657
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097213E+02         XY=  0.33086222E-01         XZ=  0.52361070E-01
                YY= -0.10161239E+02         YZ=  0.23058163E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49120473E-01 Y=  0.11086187E-11 Z=  0.11669758E-06   Total=     0.04912047
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21730746E+01         XY=  0.46412121E+00         XZ=  0.41097435E+00
                YY=  0.12448338E+01         YZ=  0.11026381E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9145272E-02 Y=  0.4453138E-08 Z=  0.4611816E-02  Total=      0.0102423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071933E+02         XY=  0.45726358E-01         XZ=  0.63556987E-01
                YY= -0.10161239E+02         YZ=  0.23059078E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10223994E-01 Y=  0.76664603E-11 Z=  0.25628381E-07   Total=     0.01022399
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14380379E+01         XY=  0.96602739E-01         XZ=  0.85540953E-01
                YY=  0.12448331E+01         YZ=  0.24221383E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8193679E-02 Y=  0.4453499E-08 Z=  0.4611739E-02  Total=      0.0094024
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081449E+02         XY=  0.40968395E-01         XZ=  0.59342634E-01
                YY= -0.10161239E+02         YZ=  0.23058694E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32562345E-01 Y=  0.13852943E-10 Z= -0.11563859E-06   Total=     0.03256235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62949483E+00         XY= -0.30766957E+00         XZ= -0.27243793E+00
                YY=  0.12448331E+01         YZ= -0.10925138E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4124528E-02 Y=  0.4455450E-08 Z=  0.4611507E-02  Total=      0.0061869
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122140E+02         XY=  0.20622639E-01         XZ=  0.41321868E-01
                YY= -0.10161239E+02         YZ=  0.23057532E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62959562E-01 Y=  0.16902025E-10 Z= -0.11194390E-06   Total=     0.06295956
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55071406E-01         XY= -0.59488165E+00         XZ= -0.52676024E+00
                YY=  0.12448339E+01         YZ= -0.10575787E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1513979E-02 Y=  0.4457472E-08 Z=  0.4611438E-02  Total=      0.0048536
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178525E+02         XY= -0.75698962E-02         XZ=  0.16352264E-01
                YY= -0.10161239E+02         YZ=  0.23057189E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69402389E-01 Y=  0.15299161E-10 Z=  0.32457165E-07   Total=     0.06940239
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.66681484E-01         XY= -0.65575754E+00         XZ= -0.58066365E+00
                YY=  0.12448343E+01         YZ=  0.30679998E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6576544E-02 Y=  0.4467947E-08 Z=  0.4611627E-02  Total=      0.0080323
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229151E+02         XY= -0.32882719E-01         XZ= -0.60655825E-02
                YY= -0.10161239E+02         YZ=  0.23058131E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49439521E-01 Y=  0.95413511E-11 Z=  0.11938110E-06   Total=     0.04943952
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31056064E+00         XY= -0.46713577E+00         XZ= -0.41364088E+00
                YY=  0.12448338E+01         YZ=  0.11280637E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9136998E-02 Y=  0.4470548E-08 Z=  0.4611812E-02  Total=      0.0102349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254755E+02         XY= -0.45684993E-01         XZ= -0.17403230E-01
                YY= -0.10161239E+02         YZ=  0.23059056E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10666266E-01 Y=  0.20093345E-11 Z=  0.29357986E-07   Total=     0.01066627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10432692E+01         XY= -0.10078161E+00         XZ= -0.89240173E-01
                YY=  0.12448331E+01         YZ=  0.27740531E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8221158E-02 Y=  0.4471198E-08 Z=  0.4611738E-02  Total=      0.0094263
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245597E+02         XY= -0.41105791E-01         XZ= -0.13347926E-01
                YY= -0.10161239E+02         YZ=  0.23058686E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32165254E-01 Y= -0.40248394E-11 Z= -0.11394064E-06   Total=     0.03216525
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18526692E+01         XY=  0.30391761E+00         XZ=  0.26911407E+00
                YY=  0.12448331E+01         YZ= -0.10766211E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4177468E-02 Y=  0.4470042E-08 Z=  0.4611505E-02  Total=      0.0062223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205160E+02         XY= -0.20887342E-01         XZ=  0.45577967E-02
                YY= -0.10161239E+02         YZ=  0.23057524E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62758867E-01 Y= -0.58363762E-11 Z= -0.11389053E-06   Total=     0.06275887
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24308054E+01         XY=  0.59298535E+00         XZ=  0.52507963E+00
                YY=  0.12448339E+01         YZ= -0.10761628E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1455568E-02 Y=  0.4469103E-08 Z=  0.4611434E-02  Total=      0.0048357
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148830E+02         XY=  0.72778371E-02         XZ=  0.29502505E-01
                YY= -0.10161239E+02         YZ=  0.23057166E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69474574E-01 Y= -0.24906557E-11 Z=  0.28593108E-07   Total=     0.06947457
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25577128E+01         XY=  0.65643959E+00         XZ=  0.58126891E+00
                YY=  0.12448343E+01         YZ=  0.27014059E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6534745E-02 Y=  0.4477772E-08 Z=  0.4611620E-02  Total=      0.0079981
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098038E+02         XY=  0.32673722E-01         XZ=  0.51995829E-01
                YY= -0.10161239E+02         YZ=  0.23058098E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49757240E-01 Y=  0.46821022E-11 Z=  0.11663606E-06   Total=     0.04975724
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21851078E+01         XY=  0.47013779E+00         XZ=  0.41630215E+00
                YY=  0.12448338E+01         YZ=  0.11020860E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9127586E-02 Y=  0.4478494E-08 Z=  0.4611807E-02  Total=      0.0102265
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072110E+02         XY=  0.45637927E-01         XZ=  0.63478793E-01
                YY= -0.10161239E+02         YZ=  0.23059031E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11108749E-01 Y=  0.12617383E-10 Z=  0.28771968E-07   Total=     0.01110875
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14547573E+01         XY=  0.10496247E+00         XZ=  0.92943683E-01
                YY=  0.12448331E+01         YZ=  0.27195726E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8247594E-02 Y=  0.4480084E-08 Z=  0.4611735E-02  Total=      0.0094494
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080910E+02         XY=  0.41237968E-01         XZ=  0.59581555E-01
                YY= -0.10161239E+02         YZ=  0.23058674E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31766251E-01 Y=  0.17840097E-10 Z= -0.11372349E-06   Total=     0.03176625
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64453883E+00         XY= -0.30014757E+00         XZ= -0.26577698E+00
                YY=  0.12448331E+01         YZ= -0.10743858E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4229586E-02 Y=  0.4480517E-08 Z=  0.4611503E-02  Total=      0.0062574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121090E+02         XY=  0.21147929E-01         XZ=  0.41787283E-01
                YY= -0.10161239E+02         YZ=  0.23057512E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62555041E-01 Y=  0.18003437E-10 Z= -0.11397247E-06   Total=     0.06255504
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62715775E-01         XY= -0.59105948E+00         XZ= -0.52337549E+00
                YY=  0.12448339E+01         YZ= -0.10767369E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1397695E-02 Y=  0.4480445E-08 Z=  0.4611428E-02  Total=      0.0048186
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10177362E+02         XY= -0.69884776E-02         XZ=  0.16867373E-01
                YY= -0.10161239E+02         YZ=  0.23057140E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69543362E-01 Y=  0.12955379E-10 Z=  0.29114919E-07   Total=     0.06954336
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.69345426E-01         XY= -0.65708954E+00         XZ= -0.58184292E+00
                YY=  0.12448343E+01         YZ=  0.27520086E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6493224E-02 Y=  0.4489620E-08 Z=  0.4611613E-02  Total=      0.0079642
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228318E+02         XY= -0.32466121E-01         XZ= -0.56964578E-02
                YY= -0.10161239E+02         YZ=  0.23058065E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50072353E-01 Y=  0.48451269E-11 Z=  0.11904401E-06   Total=     0.05007235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.29860188E+00         XY= -0.47311517E+00         XZ= -0.41893540E+00
                YY=  0.12448339E+01         YZ=  0.11248399E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9118291E-02 Y=  0.4490703E-08 Z=  0.4611802E-02  Total=      0.0102182
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254568E+02         XY= -0.45591456E-01         XZ= -0.17320208E-01
                YY= -0.10161239E+02         YZ=  0.23059007E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11550180E-01 Y= -0.27949068E-11 Z=  0.32140190E-07   Total=     0.01155018
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10265656E+01         XY= -0.10913338E+00         XZ= -0.96635458E-01
                YY=  0.12448331E+01         YZ=  0.30365410E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8274128E-02 Y=  0.4491209E-08 Z=  0.4611733E-02  Total=      0.0094726
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246127E+02         XY= -0.41370642E-01         XZ= -0.13582288E-01
                YY= -0.10161239E+02         YZ=  0.23058664E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31366561E-01 Y= -0.65958404E-11 Z= -0.11216038E-06   Total=     0.03136656
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18375761E+01         XY=  0.29637105E+00         XZ=  0.26243169E+00
                YY=  0.12448332E+01         YZ= -0.10598203E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4281911E-02 Y=  0.4490559E-08 Z=  0.4611501E-02  Total=      0.0062929
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206205E+02         XY= -0.21409557E-01         XZ=  0.40954933E-02
                YY= -0.10161239E+02         YZ=  0.23057503E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62349256E-01 Y= -0.48462365E-11 Z= -0.11563163E-06   Total=     0.06234926
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24230649E+01         XY=  0.58911509E+00         XZ=  0.52165244E+00
                YY=  0.12448339E+01         YZ= -0.10926039E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1339438E-02 Y=  0.4489475E-08 Z=  0.4611424E-02  Total=      0.0048020
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149991E+02         XY=  0.66971895E-02         XZ=  0.28988416E-01
                YY= -0.10161239E+02         YZ=  0.23057116E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69609849E-01 Y=  0.17334594E-11 Z=  0.26027143E-07   Total=     0.06960985
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25602692E+01         XY=  0.65771775E+00         XZ=  0.58240051E+00
                YY=  0.12448344E+01         YZ=  0.24593288E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6451157E-02 Y=  0.4497638E-08 Z=  0.4611607E-02  Total=      0.0079300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098874E+02         XY=  0.32255781E-01         XZ=  0.51625819E-01
                YY= -0.10161239E+02         YZ=  0.23058031E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50385870E-01 Y=  0.10286717E-10 Z=  0.11751526E-06   Total=     0.05038587
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21969872E+01         XY=  0.47607748E+00         XZ=  0.42156147E+00
                YY=  0.12448339E+01         YZ=  0.11104422E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9108380E-02 Y=  0.4498072E-08 Z=  0.4611797E-02  Total=      0.0102094
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072302E+02         XY=  0.45541898E-01         XZ=  0.63393900E-01
                YY= -0.10161239E+02         YZ=  0.23058981E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11991481E-01 Y=  0.17063846E-10 Z=  0.33013892E-07   Total=     0.01199148
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14714386E+01         XY=  0.11330308E+00         XZ=  0.10032899E+00
                YY=  0.12448331E+01         YZ=  0.31207705E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8300110E-02 Y=  0.4498794E-08 Z=  0.4611731E-02  Total=      0.0094953
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080385E+02         XY=  0.41500546E-01         XZ=  0.59814288E-01
                YY= -0.10161239E+02         YZ=  0.23058652E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30965349E-01 Y=  0.19063885E-10 Z= -0.11060846E-06   Total=     0.03096535
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65967367E+00         XY= -0.29258015E+00         XZ= -0.25907632E+00
                YY=  0.12448331E+01         YZ= -0.10449404E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4333868E-02 Y=  0.4500239E-08 Z=  0.4611499E-02  Total=      0.0063284
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120047E+02         XY=  0.21669338E-01         XZ=  0.42249248E-01
                YY= -0.10161239E+02         YZ=  0.23057491E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62140757E-01 Y=  0.15349621E-10 Z= -0.11494808E-06   Total=     0.06214076
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70544636E-01         XY= -0.58714506E+00         XZ= -0.51990953E+00
                YY=  0.12448339E+01         YZ= -0.10859746E-05         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1281303E-02 Y=  0.4501684E-08 Z=  0.4611419E-02  Total=      0.0047861
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176198E+02         XY= -0.64065159E-02         XZ=  0.17382934E-01
                YY= -0.10161239E+02         YZ=  0.23057091E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69673368E-01 Y=  0.74519874E-11 Z=  0.26449200E-07   Total=     0.06967337
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.71802116E-01         XY= -0.65831792E+00         XZ= -0.58293080E+00
                YY=  0.12448344E+01         YZ=  0.24997019E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6408988E-02 Y=  0.4510858E-08 Z=  0.4611600E-02  Total=      0.0078957
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227475E+02         XY= -0.32044940E-01         XZ= -0.53233190E-02
                YY= -0.10161239E+02         YZ=  0.23057998E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50697215E-01 Y= -0.13143001E-11 Z=  0.11901166E-06   Total=     0.05069722
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28679374E+00         XY= -0.47901926E+00         XZ= -0.42416349E+00
                YY=  0.12448339E+01         YZ=  0.11244856E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9098245E-02 Y=  0.4512014E-08 Z=  0.4611792E-02  Total=      0.0102003
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254368E+02         XY= -0.45491229E-01         XZ= -0.17231316E-01
                YY= -0.10161239E+02         YZ=  0.23058957E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12432175E-01 Y= -0.73175750E-11 Z=  0.35073763E-07   Total=     0.01243218
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10098983E+01         XY= -0.11746703E+00         XZ= -0.10401483E+00
                YY=  0.12448331E+01         YZ=  0.33133730E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8325887E-02 Y=  0.4510353E-08 Z=  0.4611729E-02  Total=      0.0095178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246645E+02         XY= -0.41629438E-01         XZ= -0.13811346E-01
                YY= -0.10161239E+02         YZ=  0.23058642E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30562988E-01 Y= -0.82067738E-11 Z= -0.11016743E-06   Total=     0.03056299
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18223907E+01         XY=  0.28877839E+00         XZ=  0.25570849E+00
                YY=  0.12448331E+01         YZ= -0.10410004E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4385771E-02 Y=  0.4507174E-08 Z=  0.4611497E-02  Total=      0.0063640
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207243E+02         XY= -0.21928857E-01         XZ=  0.36357145E-02
                YY= -0.10161239E+02         YZ=  0.23057481E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61929818E-01 Y= -0.39308868E-11 Z= -0.11705023E-06   Total=     0.06192982
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24151387E+01         XY=  0.58515198E+00         XZ=  0.51814316E+00
                YY=  0.12448339E+01         YZ= -0.11059973E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1223001E-02 Y=  0.4505368E-08 Z=  0.4611414E-02  Total=      0.0047708
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151155E+02         XY=  0.61150025E-02         XZ=  0.28472913E-01
                YY= -0.10161239E+02         YZ=  0.23057067E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69734100E-01 Y=  0.32671802E-11 Z=  0.23816608E-07   Total=     0.06973410
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25626172E+01         XY=  0.65889175E+00         XZ=  0.58344007E+00
                YY=  0.12448344E+01         YZ=  0.22506185E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6366448E-02 Y=  0.4513242E-08 Z=  0.4611593E-02  Total=      0.0078612
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099721E+02         XY=  0.31832237E-01         XZ=  0.51250803E-01
                YY= -0.10161239E+02         YZ=  0.23057964E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51006499E-01 Y=  0.98702352E-11 Z=  0.11871529E-06   Total=     0.05100650
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22087154E+01         XY=  0.48194157E+00         XZ=  0.42675408E+00
                YY=  0.12448339E+01         YZ=  0.11217800E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9087630E-02 Y=  0.4514832E-08 Z=  0.4611787E-02  Total=      0.0101909
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072509E+02         XY=  0.45438148E-01         XZ=  0.63302134E-01
                YY= -0.10161239E+02         YZ=  0.23058931E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12872326E-01 Y=  0.12657057E-10 Z=  0.37531953E-07   Total=     0.01287233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14880841E+01         XY=  0.12162585E+00         XZ=  0.10769875E+00
                YY=  0.12448331E+01         YZ=  0.35473208E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8351212E-02 Y=  0.4517216E-08 Z=  0.4611727E-02  Total=      0.0095400
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079874E+02         XY=  0.41756058E-01         XZ=  0.60040738E-01
                YY= -0.10161239E+02         YZ=  0.23058631E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30159443E-01 Y=  0.10119726E-10 Z= -0.10726015E-06   Total=     0.03015944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67490306E+00         XY= -0.28496544E+00         XZ= -0.25233358E+00
                YY=  0.12448331E+01         YZ= -0.10133762E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4437377E-02 Y=  0.4519383E-08 Z=  0.4611495E-02  Total=      0.0063997
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119012E+02         XY=  0.22186882E-01         XZ=  0.42707772E-01
                YY= -0.10161239E+02         YZ=  0.23057472E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61716418E-01 Y=  0.31000604E-11 Z= -0.11572460E-06   Total=     0.06171642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78563505E-01         XY= -0.58313564E+00         XZ= -0.51635929E+00
                YY=  0.12448339E+01         YZ= -0.10934123E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1164773E-02 Y=  0.4519311E-08 Z=  0.4611409E-02  Total=      0.0047562
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175033E+02         XY= -0.58238661E-02         XZ=  0.17899090E-01
                YY= -0.10161239E+02         YZ=  0.23057045E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69792035E-01 Y= -0.56233518E-11 Z=  0.24034703E-07   Total=     0.06979204
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.74044559E-01         XY= -0.65943916E+00         XZ= -0.58392376E+00
                YY=  0.12448344E+01         YZ=  0.22704873E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6323776E-02 Y=  0.4526029E-08 Z=  0.4611587E-02  Total=      0.0078267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226623E+02         XY= -0.31618881E-01         XZ= -0.49458738E-02
                YY= -0.10161239E+02         YZ=  0.23057933E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51313729E-01 Y= -0.12596260E-10 Z=  0.11945396E-06   Total=     0.05131373
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27514335E+00         XY= -0.48484448E+00         XZ= -0.42932177E+00
                YY=  0.12448339E+01         YZ=  0.11285718E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9076775E-02 Y=  0.4525740E-08 Z=  0.4611782E-02  Total=      0.0101812
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254153E+02         XY= -0.45383878E-01         XZ= -0.17136131E-01
                YY= -0.10161239E+02         YZ=  0.23058908E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13311968E-01 Y= -0.15221210E-10 Z=  0.38804921E-07   Total=     0.01331197
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99327267E+00         XY= -0.12577987E+00         XZ= -0.11137586E+00
                YY=  0.12448331E+01         YZ=  0.36652696E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8376331E-02 Y=  0.4526246E-08 Z=  0.4611725E-02  Total=      0.0095620
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247149E+02         XY= -0.41881657E-01         XZ= -0.14034601E-01
                YY= -0.10161239E+02         YZ=  0.23058622E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29754638E-01 Y= -0.12871608E-10 Z= -0.10720978E-06   Total=     0.02975464
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18071151E+01         XY=  0.28114059E+00         XZ=  0.24894514E+00
                YY=  0.12448331E+01         YZ= -0.10130922E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4488943E-02 Y=  0.4524729E-08 Z=  0.4611493E-02  Total=      0.0064356
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208275E+02         XY= -0.22444715E-01         XZ=  0.31789554E-02
                YY= -0.10161239E+02         YZ=  0.23057463E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61500432E-01 Y= -0.71002635E-11 Z= -0.11771665E-06   Total=     0.06150043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24070245E+01         XY=  0.58109487E+00         XZ=  0.51455041E+00
                YY=  0.12448339E+01         YZ= -0.11123191E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1106346E-02 Y=  0.4522272E-08 Z=  0.4611405E-02  Total=      0.0047423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152322E+02         XY=  0.55317293E-02         XZ=  0.27956408E-01
                YY= -0.10161239E+02         YZ=  0.23057022E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69847003E-01 Y= -0.87386683E-12 Z=  0.21816538E-07   Total=     0.06984700
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25647509E+01         XY=  0.65995854E+00         XZ=  0.58438444E+00
                YY=  0.12448343E+01         YZ=  0.20613081E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6280680E-02 Y=  0.4529496E-08 Z=  0.4611581E-02  Total=      0.0077919
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100579E+02         XY=  0.31403400E-01         XZ=  0.50871049E-01
                YY= -0.10161239E+02         YZ=  0.23057901E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51618693E-01 Y=  0.27977033E-11 Z=  0.11955941E-06   Total=     0.05161869
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22202843E+01         XY=  0.48772597E+00         XZ=  0.43187586E+00
                YY=  0.12448339E+01         YZ=  0.11296980E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9065366E-02 Y=  0.4530580E-08 Z=  0.4611777E-02  Total=      0.0101710
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072732E+02         XY=  0.45326827E-01         XZ=  0.63203598E-01
                YY= -0.10161239E+02         YZ=  0.23058884E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13750858E-01 Y=  0.22049152E-11 Z=  0.41385353E-07   Total=     0.01375086
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15046860E+01         XY=  0.12992678E+00         XZ=  0.11504893E+00
                YY=  0.12448331E+01         YZ=  0.39105530E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8400903E-02 Y=  0.4531591E-08 Z=  0.4611723E-02  Total=      0.0095835
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079377E+02         XY=  0.42004514E-01         XZ=  0.60260865E-01
                YY= -0.10161239E+02         YZ=  0.23058613E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29348841E-01 Y= -0.23483923E-11 Z= -0.10459205E-06   Total=     0.02934884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69022120E+00         XY= -0.27730636E+00         XZ= -0.24555172E+00
                YY=  0.12448331E+01         YZ= -0.98826929E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4540099E-02 Y=  0.4532025E-08 Z=  0.4611492E-02  Total=      0.0064713
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117985E+02         XY=  0.22700493E-01         XZ=  0.43162732E-01
                YY= -0.10161239E+02         YZ=  0.23057456E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61282151E-01 Y= -0.87620186E-11 Z= -0.11705989E-06   Total=     0.06128215
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86769984E-01         XY= -0.57903241E+00         XZ= -0.51272607E+00
                YY=  0.12448339E+01         YZ= -0.11061269E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1048121E-02 Y=  0.4532169E-08 Z=  0.4611401E-02  Total=      0.0047290
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173867E+02         XY= -0.52406052E-02         XZ=  0.18415704E-01
                YY= -0.10161239E+02         YZ=  0.23057002E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69899313E-01 Y= -0.14156087E-10 Z=  0.21187181E-07   Total=     0.06989931
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.76071772E-01         XY= -0.66045279E+00         XZ= -0.58482141E+00
                YY=  0.12448343E+01         YZ=  0.20007365E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6237593E-02 Y=  0.4539899E-08 Z=  0.4611575E-02  Total=      0.0077572
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225762E+02         XY= -0.31187968E-01         XZ= -0.45642112E-02
                YY= -0.10161239E+02         YZ=  0.23057872E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51921722E-01 Y= -0.16198017E-10 Z=  0.11958052E-06   Total=     0.05192172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26365398E+00         XY= -0.49058918E+00         XZ= -0.43440865E+00
                YY=  0.12448339E+01         YZ=  0.11297392E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9053868E-02 Y=  0.4540983E-08 Z=  0.4611773E-02  Total=      0.0101608
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253924E+02         XY= -0.45269341E-01         XZ= -0.17034661E-01
                YY= -0.10161239E+02         YZ=  0.23058863E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14189348E-01 Y= -0.14127224E-10 Z=  0.42341563E-07   Total=     0.01418935
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97669257E+00         XY= -0.13406991E+00         XZ= -0.11871656E+00
                YY=  0.12448332E+01         YZ=  0.39995443E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8425431E-02 Y=  0.4540910E-08 Z=  0.4611721E-02  Total=      0.0096050
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247640E+02         XY= -0.42127156E-01         XZ= -0.14251976E-01
                YY= -0.10161239E+02         YZ=  0.23058606E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28941678E-01 Y= -0.90223721E-11 Z= -0.10437743E-06   Total=     0.02894168
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17917524E+01         XY=  0.27345923E+00         XZ=  0.24214341E+00
                YY=  0.12448331E+01         YZ= -0.98629620E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4591385E-02 Y=  0.4538743E-08 Z=  0.4611490E-02  Total=      0.0065074
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209300E+02         XY= -0.22956929E-01         XZ=  0.27253576E-02
                YY= -0.10161239E+02         YZ=  0.23057450E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61061181E-01 Y= -0.32233906E-11 Z= -0.11855339E-06   Total=     0.06106118
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23987239E+01         XY=  0.57694454E+00         XZ=  0.51087527E+00
                YY=  0.12448338E+01         YZ= -0.11201910E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9895183E-03 Y=  0.4536576E-08 Z=  0.4611397E-02  Total=      0.0047164
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153490E+02         XY=  0.49475895E-02         XZ=  0.27439076E-01
                YY= -0.10161239E+02         YZ=  0.23056982E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69948561E-01 Y=  0.79210120E-12 Z=  0.19532441E-07   Total=     0.06994856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25666701E+01         XY=  0.66091812E+00         XZ=  0.58523398E+00
                YY=  0.12448343E+01         YZ=  0.18456469E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6193897E-02 Y=  0.4543583E-08 Z=  0.4611569E-02  Total=      0.0077221
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101447E+02         XY=  0.30969485E-01         XZ=  0.50486738E-01
                YY= -0.10161239E+02         YZ=  0.23057842E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52222405E-01 Y=  0.15376747E-11 Z=  0.12006073E-06   Total=     0.05222240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22316928E+01         XY=  0.49343022E+00         XZ=  0.43692669E+00
                YY=  0.12448339E+01         YZ=  0.11344255E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9041626E-02 Y=  0.4543294E-08 Z=  0.4611769E-02  Total=      0.0101498
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072970E+02         XY=  0.45208128E-01         XZ=  0.63098468E-01
                YY= -0.10161239E+02         YZ=  0.23058841E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14627025E-01 Y= -0.86815059E-12 Z=  0.44931567E-07   Total=     0.01462702
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15212431E+01         XY=  0.13820535E+00         XZ=  0.12237926E+00
                YY=  0.12448332E+01         YZ=  0.42453755E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8449219E-02 Y=  0.4543439E-08 Z=  0.4611720E-02  Total=      0.0096259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078894E+02         XY=  0.42246095E-01         XZ=  0.60474838E-01
                YY= -0.10161239E+02         YZ=  0.23058599E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28533571E-01 Y= -0.48631471E-11 Z= -0.10221996E-06   Total=     0.02853357
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70562757E+00         XY= -0.26960317E+00         XZ= -0.23873094E+00
                YY=  0.12448331E+01         YZ= -0.96587642E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4642069E-02 Y=  0.4543367E-08 Z=  0.4611489E-02  Total=      0.0065433
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116965E+02         XY=  0.23210343E-01         XZ=  0.43614290E-01
                YY= -0.10161239E+02         YZ=  0.23057445E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60837957E-01 Y= -0.82627159E-11 Z= -0.11884577E-06   Total=     0.06083796
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.95164053E-01         XY= -0.57483539E+00         XZ= -0.50901000E+00
                YY=  0.12448338E+01         YZ= -0.11229960E-05         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9313116E-03 Y=  0.4543656E-08 Z=  0.4611393E-02  Total=      0.0047045
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172699E+02         XY= -0.46565599E-02         XZ=  0.18932932E-01
                YY= -0.10161239E+02         YZ=  0.23056964E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69995199E-01 Y= -0.93252743E-11 Z=  0.17588105E-07   Total=     0.06999520
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77883684E-01         XY= -0.66135878E+00         XZ= -0.58562398E+00
                YY=  0.12448343E+01         YZ=  0.16610842E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6150406E-02 Y=  0.4551458E-08 Z=  0.4611563E-02  Total=      0.0076873
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224890E+02         XY= -0.30752031E-01         XZ= -0.41781925E-02
                YY= -0.10161239E+02         YZ=  0.23057814E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52521215E-01 Y= -0.75498147E-11 Z=  0.11867638E-06   Total=     0.05252121
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25232526E+00         XY= -0.49625356E+00         XZ= -0.43942462E+00
                YY=  0.12448339E+01         YZ=  0.11212690E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9029494E-02 Y=  0.4550157E-08 Z=  0.4611764E-02  Total=      0.0101390
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253681E+02         XY= -0.45147471E-01         XZ= -0.16926797E-01
                YY= -0.10161239E+02         YZ=  0.23058819E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15064377E-01 Y= -0.38410750E-11 Z=  0.44707260E-07   Total=     0.01506438
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96015694E+00         XY= -0.14233773E+00         XZ= -0.12603774E+00
                YY=  0.12448332E+01         YZ=  0.42239304E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8473164E-02 Y=  0.4550446E-08 Z=  0.4611719E-02  Total=      0.0096469
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248117E+02         XY= -0.42365823E-01         XZ= -0.14463408E-01
                YY= -0.10161239E+02         YZ=  0.23058591E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28124018E-01 Y=  0.42655855E-14 Z= -0.10278126E-06   Total=     0.02812402
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17763008E+01         XY=  0.26573346E+00         XZ=  0.23530228E+00
                YY=  0.12448331E+01         YZ= -0.97113955E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4693086E-02 Y=  0.4549652E-08 Z=  0.4611488E-02  Total=      0.0065796
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210317E+02         XY= -0.23465434E-01         XZ=  0.22749383E-02
                YY= -0.10161239E+02         YZ=  0.23057438E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60611978E-01 Y=  0.22114705E-11 Z= -0.12074897E-06   Total=     0.06061198
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23902352E+01         XY=  0.57270020E+00         XZ=  0.50711692E+00
                YY=  0.12448338E+01         YZ= -0.11408917E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8725231E-03 Y=  0.4548712E-08 Z=  0.4611389E-02  Total=      0.0046932
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10154660E+02         XY=  0.43626137E-02         XZ=  0.26920900E-01
                YY= -0.10161239E+02         YZ=  0.23056944E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70038737E-01 Y=  0.18849249E-11 Z=  0.15718251E-07   Total=     0.07003874
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25683742E+01         XY=  0.66177015E+00         XZ=  0.58598843E+00
                YY=  0.12448343E+01         YZ=  0.14853365E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6106102E-02 Y=  0.4555575E-08 Z=  0.4611557E-02  Total=      0.0076519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102325E+02         XY=  0.30530509E-01         XZ=  0.50097849E-01
                YY= -0.10161239E+02         YZ=  0.23057784E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52817685E-01 Y= -0.60556259E-12 Z=  0.11899322E-06   Total=     0.05281768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22429420E+01         XY=  0.49905479E+00         XZ=  0.44190720E+00
                YY=  0.12448339E+01         YZ=  0.11243195E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9016419E-02 Y=  0.4555431E-08 Z=  0.4611760E-02  Total=      0.0101274
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073222E+02         XY=  0.45082092E-01         XZ=  0.62986754E-01
                YY= -0.10161239E+02         YZ=  0.23058797E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15500972E-01 Y= -0.38756224E-11 Z=  0.47162752E-07   Total=     0.01550097
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15377583E+01         XY=  0.14646296E+00         XZ=  0.12969130E+00
                YY=  0.12448332E+01         YZ=  0.44559224E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8496179E-02 Y=  0.4556081E-08 Z=  0.4611717E-02  Total=      0.0096671
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078424E+02         XY=  0.42480895E-01         XZ=  0.60682732E-01
                YY= -0.10161239E+02         YZ=  0.23058584E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27713412E-01 Y= -0.62676423E-11 Z= -0.10065441E-06   Total=     0.02771341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.72112632E+00         XY= -0.26185380E+00         XZ= -0.23186898E+00
                YY=  0.12448331E+01         YZ= -0.95109783E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4743322E-02 Y=  0.4556587E-08 Z=  0.4611487E-02  Total=      0.0066155
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115953E+02         XY=  0.23716607E-01         XZ=  0.44062611E-01
                YY= -0.10161239E+02         YZ=  0.23057433E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60383588E-01 Y= -0.66953425E-11 Z= -0.12086113E-06   Total=     0.06038359
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10375040E+00         XY= -0.57054222E+00         XZ= -0.50520856E+00
                YY=  0.12448338E+01         YZ= -0.11420275E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8142945E-03 Y=  0.4557526E-08 Z=  0.4611386E-02  Total=      0.0046827
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171529E+02         XY= -0.40714746E-02         XZ=  0.19451028E-01
                YY= -0.10161239E+02         YZ=  0.23056926E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70079467E-01 Y= -0.51701222E-11 Z=  0.14258474E-07   Total=     0.07007947
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.79476070E-01         XY= -0.66215500E+00         XZ= -0.58632920E+00
                YY=  0.12448343E+01         YZ=  0.13468019E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6062150E-02 Y=  0.4566339E-08 Z=  0.4611552E-02  Total=      0.0076168
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224007E+02         XY= -0.30310752E-01         XZ= -0.37874912E-02
                YY= -0.10161239E+02         YZ=  0.23057756E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53112052E-01 Y= -0.27540949E-11 Z=  0.11843594E-06   Total=     0.05311205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24116009E+00         XY= -0.50183616E+00         XZ= -0.44436815E+00
                YY=  0.12448339E+01         YZ=  0.11190345E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9003582E-02 Y=  0.4567495E-08 Z=  0.4611756E-02  Total=      0.0101160
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253422E+02         XY= -0.45017913E-01         XZ= -0.16812176E-01
                YY= -0.10161239E+02         YZ=  0.23058776E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15936994E-01 Y= -0.97609282E-12 Z=  0.48028280E-07   Total=     0.01593699
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94366686E+00         XY= -0.15058277E+00         XZ= -0.13333883E+00
                YY=  0.12448332E+01         YZ=  0.45379328E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8519460E-02 Y=  0.4568073E-08 Z=  0.4611716E-02  Total=      0.0096876
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248581E+02         XY= -0.42597304E-01         XZ= -0.14668533E-01
                YY= -0.10161239E+02         YZ=  0.23058577E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27301617E-01 Y= -0.10159251E-11 Z= -0.10009093E-06   Total=     0.02730162
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17607597E+01         XY=  0.25796290E+00         XZ=  0.22842130E+00
                YY=  0.12448331E+01         YZ= -0.94573099E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4793982E-02 Y=  0.4567640E-08 Z=  0.4611486E-02  Total=      0.0066519
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211326E+02         XY= -0.23969913E-01         XZ=  0.18280176E-02
                YY= -0.10161239E+02         YZ=  0.23057429E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60152691E-01 Y= -0.30746821E-11 Z= -0.12189169E-06   Total=     0.06015269
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23815560E+01         XY=  0.56836056E+00         XZ=  0.50327394E+00
                YY=  0.12448338E+01         YZ= -0.11517357E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7554096E-03 Y=  0.4565761E-08 Z=  0.4611382E-02  Total=      0.0046728
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155832E+02         XY=  0.37770463E-02         XZ=  0.26402123E-01
                YY= -0.10161239E+02         YZ=  0.23056908E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70117320E-01 Y= -0.62528687E-11 Z=  0.12845452E-07   Total=     0.07011732
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25698593E+01         XY=  0.66251266E+00         XZ=  0.58664563E+00
                YY=  0.12448343E+01         YZ=  0.12131893E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6017325E-02 Y=  0.4571830E-08 Z=  0.4611546E-02  Total=      0.0075812
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103213E+02         XY=  0.30086624E-01         XZ=  0.49704524E-01
                YY= -0.10161239E+02         YZ=  0.23057728E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53404265E-01 Y= -0.89999070E-11 Z=  0.11887564E-06   Total=     0.05340426
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22540268E+01         XY=  0.50459717E+00         XZ=  0.44681468E+00
                YY=  0.12448339E+01         YZ=  0.11231358E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8989753E-02 Y=  0.4571252E-08 Z=  0.4611751E-02  Total=      0.0101037
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073488E+02         XY=  0.44948761E-01         XZ=  0.62868484E-01
                YY= -0.10161239E+02         YZ=  0.23058755E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16372401E-01 Y= -0.99106775E-11 Z=  0.50534377E-07   Total=     0.01637240
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15542259E+01         XY=  0.15469677E+00         XZ=  0.13698209E+00
                YY=  0.12448331E+01         YZ=  0.47739648E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8541770E-02 Y=  0.4570240E-08 Z=  0.4611715E-02  Total=      0.0097072
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077968E+02         XY=  0.42708847E-01         XZ=  0.60884462E-01
                YY= -0.10161239E+02         YZ=  0.23058571E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26888663E-01 Y= -0.84657452E-11 Z= -0.97741131E-07   Total=     0.02688866
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73671179E+00         XY= -0.25406104E+00         XZ= -0.22496869E+00
                YY=  0.12448331E+01         YZ= -0.92359218E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4843825E-02 Y=  0.4570024E-08 Z=  0.4611485E-02  Total=      0.0066879
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114948E+02         XY=  0.24219121E-01         XZ=  0.44507513E-01
                YY= -0.10161239E+02         YZ=  0.23057425E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59919296E-01 Y= -0.53355681E-11 Z= -0.12152899E-06   Total=     0.05991930
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11252425E+00         XY= -0.56615530E+00         XZ= -0.50132406E+00
                YY=  0.12448338E+01         YZ= -0.11483288E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6971153E-03 Y=  0.4570312E-08 Z=  0.4611379E-02  Total=      0.0046638
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10170357E+02         XY= -0.34855786E-02         XZ=  0.19969752E-01
                YY= -0.10161239E+02         YZ=  0.23056892E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70152277E-01 Y= -0.20817262E-11 Z=  0.12039948E-07   Total=     0.07015228
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80851950E-01         XY= -0.66284295E+00         XZ= -0.58693838E+00
                YY=  0.12448343E+01         YZ=  0.11374199E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5972875E-02 Y=  0.4578259E-08 Z=  0.4611541E-02  Total=      0.0075460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223115E+02         XY= -0.29864375E-01         XZ= -0.33923544E-02
                YY= -0.10161239E+02         YZ=  0.23057702E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53694260E-01 Y= -0.38944270E-12 Z=  0.11903829E-06   Total=     0.05369426
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23015797E+00         XY= -0.50733723E+00         XZ= -0.44923920E+00
                YY=  0.12448339E+01         YZ=  0.11247441E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8976174E-02 Y=  0.4578114E-08 Z=  0.4611748E-02  Total=      0.0100916
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253148E+02         XY= -0.44880871E-01         XZ= -0.16690991E-01
                YY= -0.10161239E+02         YZ=  0.23058736E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16807079E-01 Y= -0.12051314E-11 Z=  0.52108359E-07   Total=     0.01680708
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92722461E+00         XY= -0.15880388E+00         XZ= -0.14061836E+00
                YY=  0.12448331E+01         YZ=  0.49234109E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8564343E-02 Y=  0.4577031E-08 Z=  0.4611714E-02  Total=      0.0097271
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249029E+02         XY= -0.42821715E-01         XZ= -0.14867441E-01
                YY= -0.10161239E+02         YZ=  0.23058566E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26474718E-01 Y= -0.42112906E-11 Z= -0.96519299E-07   Total=     0.02647472
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17451335E+01         XY=  0.25014983E+00         XZ=  0.22150311E+00
                YY=  0.12448330E+01         YZ= -0.91201195E-06         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4894071E-02 Y=  0.4575586E-08 Z=  0.4611485E-02  Total=      0.0067244
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212327E+02         XY= -0.24470358E-01         XZ=  0.13846451E-02
                YY= -0.10161239E+02         YZ=  0.23057423E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59683625E-01 Y= -0.79194022E-11 Z= -0.12196350E-06   Total=     0.05968362
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23726919E+01         XY=  0.56392853E+00         XZ=  0.49934959E+00
                YY=  0.12448337E+01         YZ= -0.11524560E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6382056E-03 Y=  0.4574647E-08 Z=  0.4611376E-02  Total=      0.0046553
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157004E+02         XY=  0.31910259E-02         XZ=  0.25882938E-01
                YY= -0.10161239E+02         YZ=  0.23056877E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70184599E-01 Y= -0.10359255E-10 Z=  0.11189609E-07   Total=     0.07018460
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25711307E+01         XY=  0.66314835E+00         XZ=  0.58720866E+00
                YY=  0.12448343E+01         YZ=  0.10563782E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5927613E-02 Y=  0.4580354E-08 Z=  0.4611536E-02  Total=      0.0075102
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104110E+02         XY=  0.29638063E-01         XZ=  0.49307068E-01
                YY= -0.10161239E+02         YZ=  0.23057677E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53982334E-01 Y= -0.10047769E-10 Z=  0.12007803E-06   Total=     0.05398233
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22649507E+01         XY=  0.51005914E+00         XZ=  0.45165131E+00
                YY=  0.12448339E+01         YZ=  0.11344866E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8961683E-02 Y=  0.4579776E-08 Z=  0.4611744E-02  Total=      0.0100787
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073769E+02         XY=  0.44808412E-01         XZ=  0.62744019E-01
                YY= -0.10161239E+02         YZ=  0.23058718E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17241350E-01 Y= -0.67679421E-11 Z=  0.55304927E-07   Total=     0.01724135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15706467E+01         XY=  0.16290715E+00         XZ=  0.14425240E+00
                YY=  0.12448331E+01         YZ=  0.52249661E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8586041E-02 Y=  0.4580571E-08 Z=  0.4611713E-02  Total=      0.0097462
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077526E+02         XY=  0.42930202E-01         XZ=  0.61080380E-01
                YY= -0.10161239E+02         YZ=  0.23058564E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26059439E-01 Y= -0.17638535E-11 Z= -0.93425467E-07   Total=     0.02605944
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75238181E+00         XY= -0.24622602E+00         XZ= -0.21803081E+00
                YY=  0.12448330E+01         YZ= -0.88276022E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4943611E-02 Y=  0.4581221E-08 Z=  0.4611485E-02  Total=      0.0067606
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113950E+02         XY=  0.24718053E-01         XZ=  0.44949279E-01
                YY= -0.10161239E+02         YZ=  0.23057424E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59445314E-01 Y=  0.27736223E-11 Z= -0.12092226E-06   Total=     0.05944531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12148120E+00         XY= -0.56167682E+00         XZ= -0.49735845E+00
                YY=  0.12448337E+01         YZ= -0.11425293E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5797632E-03 Y=  0.4581582E-08 Z=  0.4611374E-02  Total=      0.0046477
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169183E+02         XY= -0.28988179E-02         XZ=  0.20489278E-01
                YY= -0.10161239E+02         YZ=  0.23056866E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70213911E-01 Y=  0.47121970E-11 Z=  0.10896902E-07   Total=     0.07021391
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82016648E-01         XY= -0.66342532E+00         XZ= -0.58745415E+00
                YY=  0.12448343E+01         YZ=  0.10299759E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5882593E-02 Y=  0.4590034E-08 Z=  0.4611531E-02  Total=      0.0074747
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222212E+02         XY= -0.29412968E-01         XZ= -0.29927319E-02
                YY= -0.10161239E+02         YZ=  0.23057655E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54268106E-01 Y=  0.30102918E-11 Z=  0.12059423E-06   Total=     0.05426811
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21931387E+00         XY= -0.51275929E+00         XZ= -0.45404049E+00
                YY=  0.12448339E+01         YZ=  0.11394729E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8947303E-02 Y=  0.4591768E-08 Z=  0.4611741E-02  Total=      0.0100659
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252859E+02         XY= -0.44736518E-01         XZ= -0.16563310E-01
                YY= -0.10161239E+02         YZ=  0.23058703E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17674844E-01 Y= -0.17235187E-11 Z=  0.57161802E-07   Total=     0.01767484
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91082620E+00         XY= -0.16700308E+00         XZ= -0.14787877E+00
                YY=  0.12448331E+01         YZ=  0.54008363E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8607860E-02 Y=  0.4592201E-08 Z=  0.4611713E-02  Total=      0.0097654
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249465E+02         XY= -0.43039304E-01         XZ= -0.15060299E-01
                YY= -0.10161239E+02         YZ=  0.23058563E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25643165E-01 Y= -0.74361234E-11 Z= -0.91925849E-07   Total=     0.02564316
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17294194E+01         XY=  0.24229279E+00         XZ=  0.21454566E+00
                YY=  0.12448330E+01         YZ= -0.86863856E-06         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4993416E-02 Y=  0.4591624E-08 Z=  0.4611486E-02  Total=      0.0067971
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213320E+02         XY= -0.24967080E-01         XZ=  0.94456612E-03
                YY= -0.10161239E+02         YZ=  0.23057426E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59204651E-01 Y= -0.11535074E-10 Z= -0.12109691E-06   Total=     0.05920465
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23636406E+01         XY=  0.55940288E+00         XZ=  0.49534203E+00
                YY=  0.12448337E+01         YZ= -0.11442998E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5208359E-03 Y=  0.4589601E-08 Z=  0.4611371E-02  Total=      0.0046407
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158177E+02         XY=  0.26041777E-02         XZ=  0.25363007E-01
                YY= -0.10161239E+02         YZ=  0.23056855E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70240432E-01 Y= -0.12092145E-10 Z=  0.10252207E-07   Total=     0.07024043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25721858E+01         XY=  0.66367590E+00         XZ=  0.58767568E+00
                YY=  0.12448343E+01         YZ=  0.96764598E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5836877E-02 Y=  0.4593935E-08 Z=  0.4611527E-02  Total=      0.0074388
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105017E+02         XY=  0.29184382E-01         XZ=  0.48905057E-01
                YY= -0.10161239E+02         YZ=  0.23057634E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54551724E-01 Y= -0.87850590E-11 Z=  0.12180784E-06   Total=     0.05455172
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22757107E+01         XY=  0.51543910E+00         XZ=  0.45641520E+00
                YY=  0.12448339E+01         YZ=  0.11508401E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8932105E-02 Y=  0.4594152E-08 Z=  0.4611738E-02  Total=      0.0100524
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074065E+02         XY=  0.44660521E-01         XZ=  0.62612853E-01
                YY= -0.10161239E+02         YZ=  0.23058688E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18107652E-01 Y= -0.31198537E-11 Z=  0.60573320E-07   Total=     0.01810765
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15870174E+01         XY=  0.17109251E+00         XZ=  0.15150060E+00
                YY=  0.12448331E+01         YZ=  0.57230515E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8628875E-02 Y=  0.4595958E-08 Z=  0.4611713E-02  Total=      0.0097839
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077097E+02         XY=  0.43144371E-01         XZ=  0.61269921E-01
                YY= -0.10161239E+02         YZ=  0.23058565E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25225840E-01 Y=  0.22009919E-11 Z= -0.88547327E-07   Total=     0.02522584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76813452E+00         XY= -0.23834965E+00         XZ= -0.21105607E+00
                YY=  0.12448330E+01         YZ= -0.83663611E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5042560E-02 Y=  0.4597475E-08 Z=  0.4611487E-02  Total=      0.0068332
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112960E+02         XY=  0.25212796E-01         XZ=  0.45387338E-01
                YY= -0.10161239E+02         YZ=  0.23057432E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58961583E-01 Y=  0.44997183E-11 Z= -0.11978081E-06   Total=     0.05896158
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13062241E+00         XY= -0.55710622E+00         XZ= -0.49331084E+00
                YY=  0.12448337E+01         YZ= -0.11317303E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4623476E-03 Y=  0.4598414E-08 Z=  0.4611370E-02  Total=      0.0046345
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168009E+02         XY= -0.23117397E-02         XZ=  0.21009112E-01
                YY= -0.10161239E+02         YZ=  0.23056848E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70264084E-01 Y=  0.23817818E-11 Z=  0.10084364E-07   Total=     0.07026408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82964730E-01         XY= -0.66389938E+00         XZ= -0.58787345E+00
                YY=  0.12448342E+01         YZ=  0.95300190E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5791383E-02 Y=  0.4606722E-08 Z=  0.4611524E-02  Total=      0.0074031
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221300E+02         XY= -0.28956919E-01         XZ= -0.25889434E-02
                YY= -0.10161239E+02         YZ=  0.23057617E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54833064E-01 Y= -0.35562662E-11 Z=  0.12220215E-06   Total=     0.05483306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20863775E+00         XY= -0.51809737E+00         XZ= -0.45876674E+00
                YY=  0.12448339E+01         YZ=  0.11546102E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8916999E-02 Y=  0.4607878E-08 Z=  0.4611736E-02  Total=      0.0100390
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252556E+02         XY= -0.44584996E-01         XZ= -0.16429194E-01
                YY= -0.10161239E+02         YZ=  0.23058677E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18539590E-01 Y= -0.10917757E-10 Z=  0.62059474E-07   Total=     0.01853959
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89448489E+00         XY= -0.17517373E+00         XZ= -0.15511322E+00
                YY=  0.12448331E+01         YZ=  0.58628267E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8649984E-02 Y=  0.4607083E-08 Z=  0.4611714E-02  Total=      0.0098026
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249886E+02         XY= -0.43249923E-01         XZ= -0.15246868E-01
                YY= -0.10161239E+02         YZ=  0.23058567E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24807700E-01 Y= -0.16537841E-10 Z= -0.87602181E-07   Total=     0.02480770
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17136314E+01         XY=  0.23439880E+00         XZ=  0.20755611E+00
                YY=  0.12448330E+01         YZ= -0.82786203E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5091930E-02 Y=  0.4604410E-08 Z=  0.4611488E-02  Total=      0.0068698
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214305E+02         XY= -0.25459652E-01         XZ=  0.50830567E-03
                YY= -0.10161239E+02         YZ=  0.23057437E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58716387E-01 Y= -0.17903990E-10 Z= -0.12059741E-06   Total=     0.05871639
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23544138E+01         XY=  0.55478945E+00         XZ=  0.49125723E+00
                YY=  0.12448337E+01         YZ= -0.11396331E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4034267E-03 Y=  0.4601593E-08 Z=  0.4611369E-02  Total=      0.0046290
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159352E+02         XY=  0.20171317E-02         XZ=  0.24843062E-01
                YY= -0.10161239E+02         YZ=  0.23056841E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70285167E-01 Y= -0.14318227E-10 Z=  0.88358111E-08   Total=     0.07028517
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25730312E+01         XY=  0.66409858E+00         XZ=  0.58805012E+00
                YY=  0.12448342E+01         YZ=  0.83363669E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5745258E-02 Y=  0.4606144E-08 Z=  0.4611520E-02  Total=      0.0073671
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105933E+02         XY=  0.28726287E-01         XZ=  0.48499304E-01
                YY= -0.10161239E+02         YZ=  0.23057599E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55112433E-01 Y= -0.72609057E-11 Z=  0.12298923E-06   Total=     0.05511243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22863066E+01         XY=  0.52073702E+00         XZ=  0.46110648E+00
                YY=  0.12448339E+01         YZ=  0.11620164E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8901146E-02 Y=  0.4605783E-08 Z=  0.4611734E-02  Total=      0.0100249
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074375E+02         XY=  0.44505729E-01         XZ=  0.62475739E-01
                YY= -0.10161239E+02         YZ=  0.23058665E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18970963E-01 Y=  0.23253779E-12 Z=  0.65294459E-07   Total=     0.01897096
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16033316E+01         XY=  0.17924962E+00         XZ=  0.15872355E+00
                YY=  0.12448331E+01         YZ=  0.61694270E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8670364E-02 Y=  0.4606866E-08 Z=  0.4611715E-02  Total=      0.0098205
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076682E+02         XY=  0.43351817E-01         XZ=  0.61453654E-01
                YY= -0.10161239E+02         YZ=  0.23058571E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24388453E-01 Y=  0.49199725E-11 Z= -0.84232409E-07   Total=     0.02438845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78395886E+00         XY= -0.23043748E+00         XZ= -0.20405012E+00
                YY=  0.12448330E+01         YZ= -0.79584202E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5140713E-02 Y=  0.4607878E-08 Z=  0.4611490E-02  Total=      0.0069060
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111979E+02         XY=  0.25703562E-01         XZ=  0.45821999E-01
                YY= -0.10161239E+02         YZ=  0.23057445E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58468793E-01 Y=  0.48204676E-11 Z= -0.11934055E-06   Total=     0.05846879
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13993483E+00         XY= -0.55245003E+00         XZ= -0.48918808E+00
                YY=  0.12448337E+01         YZ= -0.11275665E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3448781E-03 Y=  0.4609106E-08 Z=  0.4611368E-02  Total=      0.0046242
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166835E+02         XY= -0.17243927E-02         XZ=  0.21529278E-01
                YY= -0.10161239E+02         YZ=  0.23056837E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70303449E-01 Y=  0.13599166E-12 Z=  0.83513544E-08   Total=     0.07030345
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83708537E-01         XY= -0.66427132E+00         XZ= -0.58820304E+00
                YY=  0.12448342E+01         YZ=  0.78908154E-07         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5699300E-02 Y=  0.4617847E-08 Z=  0.4611517E-02  Total=      0.0073313
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220379E+02         XY= -0.28496501E-01         XZ= -0.21812222E-02
                YY= -0.10161239E+02         YZ=  0.23057584E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55389656E-01 Y= -0.68040885E-11 Z=  0.12276155E-06   Total=     0.05538966
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19811975E+00         XY= -0.52335640E+00         XZ= -0.46342369E+00
                YY=  0.12448339E+01         YZ=  0.11598700E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8885348E-02 Y=  0.4618353E-08 Z=  0.4611732E-02  Total=      0.0100109
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252240E+02         XY= -0.44426740E-01         XZ= -0.16289079E-01
                YY= -0.10161239E+02         YZ=  0.23058656E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19401674E-01 Y= -0.12567239E-10 Z=  0.65970687E-07   Total=     0.01940167
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.87819388E+00         XY= -0.18331925E+00         XZ= -0.16232597E+00
                YY=  0.12448331E+01         YZ=  0.62322595E-06         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8690822E-02 Y=  0.4617341E-08 Z=  0.4611716E-02  Total=      0.0098386
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250294E+02         XY= -0.43454110E-01         XZ= -0.15427724E-01
                YY= -0.10161239E+02         YZ=  0.23058576E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23968103E-01 Y= -0.14157919E-10 Z= -0.84128735E-07   Total=     0.02396810
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16977653E+01         XY=  0.22646576E+00         XZ=  0.20053165E+00
                YY=  0.12448330E+01         YZ= -0.79502129E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5189733E-02 Y=  0.4615752E-08 Z=  0.4611491E-02  Total=      0.0069426
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215283E+02         XY= -0.25948665E-01         XZ=  0.75203644E-04
                YY= -0.10161239E+02         YZ=  0.23057453E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58218708E-01 Y= -0.10383015E-10 Z= -0.12095261E-06   Total=     0.05821871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23450091E+01         XY=  0.55008707E+00         XZ=  0.48709358E+00
                YY=  0.12448337E+01         YZ= -0.11429249E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2858545E-03 Y=  0.4614379E-08 Z=  0.4611367E-02  Total=      0.0046202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160527E+02         XY=  0.14292706E-02         XZ=  0.24322404E-01
                YY= -0.10161239E+02         YZ=  0.23056832E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70318749E-01 Y= -0.24212747E-11 Z=  0.63446687E-08   Total=     0.07031875
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25736659E+01         XY=  0.66441589E+00         XZ=  0.58833145E+00
                YY=  0.12448342E+01         YZ=  0.59926641E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5652633E-02 Y=  0.4619797E-08 Z=  0.4611514E-02  Total=      0.0072951
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106860E+02         XY=  0.28263164E-01         XZ=  0.48089121E-01
                YY= -0.10161239E+02         YZ=  0.23057567E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55664490E-01 Y=  0.66686715E-11 Z=  0.12279575E-06   Total=     0.05566449
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22967390E+01         XY=  0.52595320E+00         XZ=  0.46572582E+00
                YY=  0.12448339E+01         YZ=  0.11603059E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8868694E-02 Y=  0.4620520E-08 Z=  0.4611729E-02  Total=      0.0099961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074699E+02         XY=  0.44343469E-01         XZ=  0.62332056E-01
                YY= -0.10161239E+02         YZ=  0.23058645E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19831449E-01 Y=  0.13288664E-10 Z=  0.68434839E-07   Total=     0.01983145
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16195925E+01         XY=  0.18738004E+00         XZ=  0.16592350E+00
                YY=  0.12448331E+01         YZ=  0.64672512E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8710416E-02 Y=  0.4622470E-08 Z=  0.4611716E-02  Total=      0.0098559
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076282E+02         XY=  0.43552076E-01         XZ=  0.61631098E-01
                YY= -0.10161239E+02         YZ=  0.23058580E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23546919E-01 Y=  0.14890800E-10 Z= -0.81579826E-07   Total=     0.02354692
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79986155E+00         XY= -0.22248614E+00         XZ= -0.19700873E+00
                YY=  0.12448330E+01         YZ= -0.77069459E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5238016E-02 Y=  0.4624204E-08 Z=  0.4611493E-02  Total=      0.0069787
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111006E+02         XY=  0.26190078E-01         XZ=  0.46253002E-01
                YY= -0.10161239E+02         YZ=  0.23057461E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57966364E-01 Y=  0.11105277E-10 Z= -0.12060917E-06   Total=     0.05796636
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14942940E+00         XY= -0.54770276E+00         XZ= -0.48498392E+00
                YY=  0.12448337E+01         YZ= -0.11395000E-05         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2273560E-03 Y=  0.4625143E-08 Z=  0.4611366E-02  Total=      0.0046170
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165659E+02         XY= -0.11367818E-02         XZ=  0.22049815E-01
                YY= -0.10161239E+02         YZ=  0.23056828E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70331243E-01 Y=  0.38977686E-11 Z=  0.48522462E-08   Total=     0.07033124
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84233697E-01         XY= -0.66453394E+00         XZ= -0.58843516E+00
                YY=  0.12448342E+01         YZ=  0.45878307E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5606280E-02 Y=  0.4632656E-08 Z=  0.4611511E-02  Total=      0.0072592
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219449E+02         XY= -0.28031401E-01         XZ= -0.17691940E-02
                YY= -0.10161239E+02         YZ=  0.23057552E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55937048E-01 Y= -0.33140399E-11 Z=  0.12154722E-06   Total=     0.05593705
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18777561E+00         XY= -0.52852851E+00         XZ= -0.46800317E+00
                YY=  0.12448339E+01         YZ=  0.11484256E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8852225E-02 Y=  0.4632945E-08 Z=  0.4611727E-02  Total=      0.0099815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251908E+02         XY= -0.44261126E-01         XZ= -0.16142272E-01
                YY= -0.10161239E+02         YZ=  0.23058634E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20260351E-01 Y= -0.71868211E-11 Z=  0.68205164E-07   Total=     0.02026035
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86196726E+00         XY= -0.19143257E+00         XZ= -0.16950995E+00
                YY=  0.12448332E+01         YZ=  0.64438376E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8730198E-02 Y=  0.4632873E-08 Z=  0.4611717E-02  Total=      0.0098734
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250688E+02         XY= -0.43650994E-01         XZ= -0.15601934E-01
                YY= -0.10161239E+02         YZ=  0.23058583E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23124872E-01 Y= -0.59392270E-11 Z= -0.82186472E-07   Total=     0.02312487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16818306E+01         XY=  0.21849837E+00         XZ=  0.19347676E+00
                YY=  0.12448330E+01         YZ= -0.77660101E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5286627E-02 Y=  0.4631862E-08 Z=  0.4611494E-02  Total=      0.0070153
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216252E+02         XY= -0.26433135E-01         XZ= -0.35370191E-03
                YY= -0.10161239E+02         YZ=  0.23057468E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57711752E-01 Y= -0.13350968E-12 Z= -0.12274845E-06   Total=     0.05771175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23354290E+01         XY=  0.54529703E+00         XZ=  0.48285202E+00
                YY=  0.12448337E+01         YZ= -0.11598078E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1683091E-03 Y=  0.4631500E-08 Z=  0.4611365E-02  Total=      0.0046144
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10161703E+02         XY=  0.84154360E-03         XZ=  0.23802020E-01
                YY= -0.10161239E+02         YZ=  0.23056822E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70340931E-01 Y=  0.75922319E-11 Z=  0.24418661E-08   Total=     0.07034093
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25740852E+01         XY=  0.66462548E+00         XZ=  0.58851686E+00
                YY=  0.12448342E+01         YZ=  0.23133858E-07         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5559157E-02 Y=  0.4640458E-08 Z=  0.4611507E-02  Total=      0.0072229
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107794E+02         XY=  0.27795784E-01         XZ=  0.47675297E-01
                YY= -0.10161239E+02         YZ=  0.23057533E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56207337E-01 Y=  0.13713595E-10 Z=  0.12125680E-06   Total=     0.05620734
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23069974E+01         XY=  0.53108237E+00         XZ=  0.47026740E+00
                YY=  0.12448339E+01         YZ=  0.11458236E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8834848E-02 Y=  0.4643059E-08 Z=  0.4611725E-02  Total=      0.0099661
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075038E+02         XY=  0.44174238E-01         XZ=  0.62182295E-01
                YY= -0.10161239E+02         YZ=  0.23058621E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20688390E-01 Y=  0.15392320E-10 Z=  0.70378446E-07   Total=     0.02068839
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16357863E+01         XY=  0.19547696E+00         XZ=  0.17309299E+00
                YY=  0.12448332E+01         YZ=  0.66510699E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8749070E-02 Y=  0.4644143E-08 Z=  0.4611717E-02  Total=      0.0098901
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075895E+02         XY=  0.43745347E-01         XZ=  0.61802415E-01
                YY= -0.10161239E+02         YZ=  0.23058585E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22701946E-01 Y=  0.11728214E-10 Z= -0.80011231E-07   Total=     0.02270195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81582922E+00         XY= -0.21450231E+00         XZ= -0.18993937E+00
                YY=  0.12448330E+01         YZ= -0.75589998E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5334456E-02 Y=  0.4644865E-08 Z=  0.4611495E-02  Total=      0.0070514
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110041E+02         XY=  0.26672278E-01         XZ=  0.46680216E-01
                YY= -0.10161239E+02         YZ=  0.23057474E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57454849E-01 Y=  0.41375321E-11 Z= -0.12305515E-06   Total=     0.05745485
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15909566E+00         XY= -0.54286965E+00         XZ= -0.48070447E+00
                YY=  0.12448336E+01         YZ= -0.11626695E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1098300E-03 Y=  0.4643854E-08 Z=  0.4611364E-02  Total=      0.0046127
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164484E+02         XY= -0.54915185E-03         XZ=  0.22570376E-01
                YY= -0.10161239E+02         YZ=  0.23056816E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70347781E-01 Y= -0.42969391E-11 Z= -0.13300498E-09   Total=     0.07034778
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84546169E-01         XY= -0.66469020E+00         XZ= -0.58857366E+00
                YY=  0.12448342E+01         YZ= -0.12940048E-08         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5512388E-02 Y=  0.4650066E-08 Z=  0.4611503E-02  Total=      0.0071870
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218510E+02         XY= -0.27561942E-01         XZ= -0.13533176E-02
                YY= -0.10161239E+02         YZ=  0.23057515E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56475310E-01 Y= -0.10198595E-10 Z=  0.11851437E-06   Total=     0.05647531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17760398E+00         XY= -0.53361435E+00         XZ= -0.47250662E+00
                YY=  0.12448339E+01         YZ=  0.11197118E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8817692E-02 Y=  0.4651439E-08 Z=  0.4611722E-02  Total=      0.0099509
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251563E+02         XY= -0.44088460E-01         XZ= -0.15989243E-01
                YY= -0.10161239E+02         YZ=  0.23058607E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21115498E-01 Y= -0.11373535E-10 Z=  0.68458983E-07   Total=     0.02111550
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84580734E+00         XY= -0.19951254E+00         XZ= -0.17666449E+00
                YY=  0.12448332E+01         YZ=  0.64674705E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8768161E-02 Y=  0.4652234E-08 Z=  0.4611717E-02  Total=      0.0099070
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251068E+02         XY= -0.43840805E-01         XZ= -0.15769900E-01
                YY= -0.10161239E+02         YZ=  0.23058584E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22278249E-01 Y= -0.77321359E-11 Z= -0.82219021E-07   Total=     0.02227825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16658317E+01         XY=  0.21049895E+00         XZ=  0.18639367E+00
                YY=  0.12448330E+01         YZ= -0.77692327E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5382634E-02 Y=  0.4652378E-08 Z=  0.4611496E-02  Total=      0.0070879
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217212E+02         XY= -0.26913173E-01         XZ= -0.77869017E-03
                YY= -0.10161239E+02         YZ=  0.23057476E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57195821E-01 Y= -0.12637347E-11 Z= -0.12650077E-06   Total=     0.05719582
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23256793E+01         XY=  0.54042219E+00         XZ=  0.47853578E+00
                YY=  0.12448336E+01         YZ= -0.11952709E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5079523E-04 Y=  0.4652667E-08 Z=  0.4611361E-02  Total=      0.0046116
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162878E+02         XY=  0.25397420E-03         XZ=  0.23281789E-01
                YY= -0.10161239E+02         YZ=  0.23056805E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70352048E-01 Y=  0.49014468E-11 Z= -0.34798953E-08   Total=     0.07035205
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25742953E+01         XY=  0.66473051E+00         XZ=  0.58861029E+00
                YY=  0.12448342E+01         YZ= -0.32840259E-07         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5464864E-02 Y=  0.4660180E-08 Z=  0.4611499E-02  Total=      0.0071506
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108737E+02         XY=  0.27324318E-01         XZ=  0.47257892E-01
                YY= -0.10161239E+02         YZ=  0.23057492E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56741340E-01 Y=  0.79032940E-11 Z=  0.11763495E-06   Total=     0.05674134
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23170886E+01         XY=  0.53612796E+00         XZ=  0.47473567E+00
                YY=  0.12448339E+01         YZ=  0.11115545E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8799674E-02 Y=  0.4661625E-08 Z=  0.4611718E-02  Total=      0.0099349
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075389E+02         XY=  0.43998366E-01         XZ=  0.62026720E-01
                YY= -0.10161239E+02         YZ=  0.23058588E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21542187E-01 Y=  0.63985659E-11 Z=  0.70312496E-07   Total=     0.02154219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16519208E+01         XY=  0.20354417E+00         XZ=  0.18023685E+00
                YY=  0.12448332E+01         YZ=  0.66440975E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8786427E-02 Y=  0.4661769E-08 Z=  0.4611717E-02  Total=      0.0099232
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075522E+02         XY=  0.43932134E-01         XZ=  0.61968082E-01
                YY= -0.10161239E+02         YZ=  0.23058581E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21853110E-01 Y=  0.10971033E-11 Z= -0.80201867E-07   Total=     0.02185311
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.83186988E+00         XY= -0.20648196E+00         XZ= -0.18283710E+00
                YY=  0.12448329E+01         YZ= -0.75778922E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5430169E-02 Y=  0.4661119E-08 Z=  0.4611496E-02  Total=      0.0071241
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109084E+02         XY=  0.27150844E-01         XZ=  0.47104323E-01
                YY= -0.10161239E+02         YZ=  0.23057477E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56933842E-01 Y= -0.56247034E-11 Z= -0.12688619E-06   Total=     0.05693384
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16894127E+00         XY= -0.53794684E+00         XZ= -0.47634520E+00
                YY=  0.12448336E+01         YZ= -0.11989485E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7867586E-05 Y=  0.4661480E-08 Z=  0.4611359E-02  Total=      0.0046114
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10163307E+02         XY=  0.39335963E-04         XZ=  0.23091820E-01
                YY= -0.10161239E+02         YZ=  0.23056794E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70352757E-01 Y= -0.10830029E-10 Z= -0.60284512E-08   Total=     0.07035276
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84640153E-01         XY= -0.66473722E+00         XZ= -0.58861528E+00
                YY=  0.12448342E+01         YZ= -0.57052119E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5417436E-02 Y=  0.4668488E-08 Z=  0.4611494E-02  Total=      0.0071144
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10217560E+02         XY= -0.27087183E-01         XZ= -0.93262494E-03
                YY= -0.10161239E+02         YZ=  0.23057469E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57004328E-01 Y= -0.12330637E-10 Z=  0.11517778E-06   Total=     0.05700433
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16760703E+00         XY= -0.53861284E+00         XZ= -0.47693283E+00
                YY=  0.12448339E+01         YZ=  0.10881680E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8781559E-02 Y=  0.4669427E-08 Z=  0.4611714E-02  Total=      0.0099189
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251202E+02         XY= -0.43907795E-01         XZ= -0.15829018E-01
                YY= -0.10161239E+02         YZ=  0.23058569E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21967267E-01 Y= -0.96128013E-11 Z=  0.69106152E-07   Total=     0.02196727
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.82971124E+00         XY= -0.20756059E+00         XZ= -0.18379113E+00
                YY=  0.12448331E+01         YZ=  0.65287698E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8804540E-02 Y=  0.4670799E-08 Z=  0.4611716E-02  Total=      0.0099392
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251431E+02         XY= -0.44022700E-01         XZ= -0.15930768E-01
                YY= -0.10161239E+02         YZ=  0.23058576E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.21427787E-01 Y= -0.39880332E-11 Z= -0.81259097E-07   Total=     0.02142779
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16497603E+01         XY=  0.20246325E+00         XZ=  0.17927786E+00
                YY=  0.12448329E+01         YZ= -0.76782161E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5477631E-02 Y=  0.4671594E-08 Z=  0.4611496E-02  Total=      0.0071603
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10218162E+02         XY= -0.27388159E-01         XZ= -0.11991468E-02
                YY= -0.10161239E+02         YZ=  0.23057476E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56670207E-01 Y=  0.20623102E-11 Z= -0.12895953E-06   Total=     0.05667021
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23157467E+01         XY=  0.53545585E+00         XZ=  0.47413777E+00
                YY=  0.12448336E+01         YZ= -0.12184747E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6662607E-04 Y=  0.4671955E-08 Z=  0.4611356E-02  Total=      0.0046118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10164052E+02         XY= -0.33313231E-03         XZ=  0.22761990E-01
                YY= -0.10161239E+02         YZ=  0.23056780E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70351221E-01 Y=  0.60215371E-11 Z= -0.81029494E-08   Total=     0.07035122
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25742797E+01         XY=  0.66472271E+00         XZ=  0.58860297E+00
                YY=  0.12448342E+01         YZ= -0.76512353E-07         ZZ=  0.12448341E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5369742E-02 Y=  0.4677446E-08 Z=  0.4611489E-02  Total=      0.0070781
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10109688E+02         XY=  0.26848709E-01         XZ=  0.46836803E-01
                YY= -0.10161239E+02         YZ=  0.23057443E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57265585E-01 Y=  0.64244845E-11 Z=  0.11524103E-06   Total=     0.05726559
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23269954E+01         XY=  0.54108137E+00         XZ=  0.47912151E+00
                YY=  0.12448339E+01         YZ=  0.10889226E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8763090E-02 Y=  0.4678674E-08 Z=  0.4611710E-02  Total=      0.0099025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075755E+02         XY=  0.43815446E-01         XZ=  0.61864853E-01
                YY= -0.10161239E+02         YZ=  0.23058548E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.22392033E-01 Y=  0.34206752E-11 Z=  0.71538040E-07   Total=     0.02239203
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16679805E+01         XY=  0.21157405E+00         XZ=  0.18734699E+00
                YY=  0.12448331E+01         YZ=  0.67596375E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8822348E-02 Y=  0.4681419E-08 Z=  0.4611714E-02  Total=      0.0099550
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10075163E+02         XY=  0.44111737E-01         XZ=  0.62127311E-01
                YY= -0.10161239E+02         YZ=  0.23058570E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.21000998E-01 Y= -0.14060939E-11 Z= -0.78908895E-07   Total=     0.02100100
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.84797242E+00         XY= -0.19843067E+00         XZ= -0.17570788E+00
                YY=  0.12448329E+01         YZ= -0.74559453E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5524977E-02 Y=  0.4682936E-08 Z=  0.4611495E-02  Total=      0.0071966
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10108136E+02         XY=  0.27624884E-01         XZ=  0.47524334E-01
                YY= -0.10161239E+02         YZ=  0.23057475E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.56403642E-01 Y= -0.58361054E-11 Z= -0.12907960E-06   Total=     0.05640364
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17896057E+00         XY= -0.53293719E+00         XZ= -0.47190919E+00
                YY=  0.12448335E+01         YZ= -0.12196764E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1255440E-03 Y=  0.4683586E-08 Z=  0.4611354E-02  Total=      0.0046131
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10162130E+02         XY=  0.62771804E-03         XZ=  0.23613079E-01
                YY= -0.10161239E+02         YZ=  0.23056768E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70346163E-01 Y= -0.80347777E-11 Z= -0.10270180E-07   Total=     0.07034616
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84515531E-01         XY= -0.66467491E+00         XZ= -0.58855997E+00
                YY=  0.12448342E+01         YZ= -0.97108749E-07         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5321608E-02 Y=  0.4690304E-08 Z=  0.4611484E-02  Total=      0.0070417
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10216602E+02         XY= -0.26608042E-01         XZ= -0.50813192E-03
                YY= -0.10161239E+02         YZ=  0.23057419E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.57523812E-01 Y= -0.73271973E-11 Z=  0.11344932E-06   Total=     0.05752381
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15779021E+00         XY= -0.54352125E+00         XZ= -0.48127890E+00
                YY=  0.12448339E+01         YZ=  0.10718769E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8743979E-02 Y=  0.4690738E-08 Z=  0.4611706E-02  Total=      0.0098856
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250826E+02         XY= -0.43719897E-01         XZ= -0.15662449E-01
                YY= -0.10161239E+02         YZ=  0.23058528E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.22815143E-01 Y= -0.43978017E-11 Z=  0.71383612E-07   Total=     0.02281514
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.81368867E+00         XY= -0.21557186E+00         XZ= -0.19088464E+00
                YY=  0.12448331E+01         YZ=  0.67443802E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8839444E-02 Y=  0.4690810E-08 Z=  0.4611713E-02  Total=      0.0099701
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10251780E+02         XY= -0.44197220E-01         XZ= -0.16085138E-01
                YY= -0.10161239E+02         YZ=  0.23058564E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20574152E-01 Y= -0.86859726E-12 Z= -0.78561931E-07   Total=     0.02057415
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16336289E+01         XY=  0.19439757E+00         XZ=  0.17213619E+00
                YY=  0.12448329E+01         YZ= -0.74231254E-06         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5571672E-02 Y=  0.4690015E-08 Z=  0.4611495E-02  Total=      0.0072325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10219103E+02         XY= -0.27858362E-01         XZ= -0.16153703E-02
                YY= -0.10161239E+02         YZ=  0.23057474E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56135644E-01 Y=  0.15079520E-11 Z= -0.12957525E-06   Total=     0.05613564
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23056449E+01         XY=  0.53040497E+00         XZ=  0.46966559E+00
                YY=  0.12448335E+01         YZ= -0.12242987E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1839522E-03 Y=  0.4689076E-08 Z=  0.4611351E-02  Total=      0.0046150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10165225E+02         XY= -0.91976281E-03         XZ=  0.22242638E-01
                YY= -0.10161239E+02         YZ=  0.23056755E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70339172E-01 Y=  0.16438080E-11 Z= -0.10825437E-07   Total=     0.07033917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25740520E+01         XY=  0.66460886E+00         XZ=  0.58850236E+00
                YY=  0.12448341E+01         YZ= -0.10227467E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5273846E-02 Y=  0.4695434E-08 Z=  0.4611479E-02  Total=      0.0070057
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10110647E+02         XY=  0.26369229E-01         XZ=  0.46412333E-01
                YY= -0.10161239E+02         YZ=  0.23057394E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.57780696E-01 Y= -0.46002207E-12 Z=  0.11480444E-06   Total=     0.05778070
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23367296E+01         XY=  0.54594846E+00         XZ=  0.48343136E+00
                YY=  0.12448339E+01         YZ=  0.10847378E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8725191E-02 Y=  0.4696011E-08 Z=  0.4611702E-02  Total=      0.0098690
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076134E+02         XY=  0.43625952E-01         XZ=  0.61697225E-01
                YY= -0.10161239E+02         YZ=  0.23058508E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.23238377E-01 Y= -0.38225175E-11 Z=  0.74813451E-07   Total=     0.02323838
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16839740E+01         XY=  0.21957084E+00         XZ=  0.19442806E+00
                YY=  0.12448331E+01         YZ=  0.70684929E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8856951E-02 Y=  0.4696734E-08 Z=  0.4611712E-02  Total=      0.0099857
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074817E+02         XY=  0.44284754E-01         XZ=  0.62280775E-01
                YY= -0.10161239E+02         YZ=  0.23058559E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.20145385E-01 Y= -0.70264122E-11 Z= -0.75509603E-07   Total=     0.02014539
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.86414111E+00         XY= -0.19034630E+00         XZ= -0.16854939E+00
                YY=  0.12448328E+01         YZ= -0.71352477E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5619006E-02 Y=  0.4696445E-08 Z=  0.4611495E-02  Total=      0.0072691
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10107196E+02         XY=  0.28095028E-01         XZ=  0.47940955E-01
                YY= -0.10161239E+02         YZ=  0.23057475E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55864276E-01 Y= -0.89052493E-11 Z= -0.12925125E-06   Total=     0.05586428
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18915309E+00         XY= -0.52784091E+00         XZ= -0.46739676E+00
                YY=  0.12448335E+01         YZ= -0.12213257E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2433119E-03 Y=  0.4696084E-08 Z=  0.4611349E-02  Total=      0.0046178
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10160953E+02         XY=  0.12165576E-02         XZ=  0.24134790E-01
                YY= -0.10161239E+02         YZ=  0.23056745E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70328262E-01 Y= -0.90364223E-11 Z= -0.12695251E-07   Total=     0.07032826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.84177235E-01         XY= -0.66450577E+00         XZ= -0.58841055E+00
                YY=  0.12448341E+01         YZ= -0.12003220E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5224820E-02 Y=  0.4702585E-08 Z=  0.4611475E-02  Total=      0.0069688
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10215634E+02         XY= -0.26124103E-01         XZ= -0.79367924E-04
                YY= -0.10161239E+02         YZ=  0.23057372E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58034216E-01 Y= -0.78261844E-11 Z=  0.11336776E-06   Total=     0.05803422
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14814498E+00         XY= -0.54834388E+00         XZ= -0.48554964E+00
                YY=  0.12448339E+01         YZ=  0.10711007E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8704911E-02 Y=  0.4703886E-08 Z=  0.4611698E-02  Total=      0.0098511
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250435E+02         XY= -0.43524559E-01         XZ= -0.15489298E-01
                YY= -0.10161239E+02         YZ=  0.23058489E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23659702E-01 Y= -0.61862932E-11 Z=  0.75279595E-07   Total=     0.02365970
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.79772879E+00         XY= -0.22355178E+00         XZ= -0.19795111E+00
                YY=  0.12448331E+01         YZ=  0.71123359E-06         ZZ=  0.12448342E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8872879E-02 Y=  0.4704753E-08 Z=  0.4611711E-02  Total=      0.0099998
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252115E+02         XY= -0.44364396E-01         XZ= -0.16233041E-01
                YY= -0.10161239E+02         YZ=  0.23058555E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19716724E-01 Y= -0.50012286E-11 Z= -0.74228676E-07   Total=     0.01971672
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16174258E+01         XY=  0.18629604E+00         XZ=  0.16496206E+00
                YY=  0.12448328E+01         YZ= -0.70140480E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5664811E-02 Y=  0.4704969E-08 Z=  0.4611496E-02  Total=      0.0073045
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220034E+02         XY= -0.28324055E-01         XZ= -0.20276654E-02
                YY= -0.10161239E+02         YZ=  0.23057477E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55591536E-01 Y= -0.46743422E-11 Z= -0.12869548E-06   Total=     0.05559154
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22953627E+01         XY=  0.52526390E+00         XZ=  0.46511291E+00
                YY=  0.12448335E+01         YZ= -0.12160387E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3012816E-03 Y=  0.4703308E-08 Z=  0.4611348E-02  Total=      0.0046212
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10166399E+02         XY= -0.15064099E-02         XZ=  0.21723181E-01
                YY= -0.10161239E+02         YZ=  0.23056736E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70315380E-01 Y= -0.49781730E-11 Z= -0.12422135E-07   Total=     0.07031538
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25736024E+01         XY=  0.66438406E+00         XZ=  0.58830301E+00
                YY=  0.12448341E+01         YZ= -0.11741728E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5177041E-02 Y=  0.4708220E-08 Z=  0.4611471E-02  Total=      0.0069331
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10111615E+02         XY=  0.25885204E-01         XZ=  0.45983730E-01
                YY= -0.10161239E+02         YZ=  0.23057351E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58286261E-01 Y= -0.52615645E-11 Z=  0.11505360E-06   Total=     0.05828626
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23462834E+01         XY=  0.55072535E+00         XZ=  0.48766102E+00
                YY=  0.12448339E+01         YZ=  0.10870515E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8685816E-02 Y=  0.4709231E-08 Z=  0.4611695E-02  Total=      0.0098342
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076528E+02         XY=  0.43429078E-01         XZ=  0.61522941E-01
                YY= -0.10161239E+02         YZ=  0.23058473E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24080940E-01 Y= -0.48775308E-11 Z=  0.78487244E-07   Total=     0.02408094
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16998962E+01         XY=  0.22753191E+00         XZ=  0.20147738E+00
                YY=  0.12448331E+01         YZ=  0.74155258E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8890061E-02 Y=  0.4711254E-08 Z=  0.4611711E-02  Total=      0.0100150
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074485E+02         XY=  0.44450304E-01         XZ=  0.62427504E-01
                YY= -0.10161239E+02         YZ=  0.23058554E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.19286403E-01 Y= -0.35836428E-11 Z= -0.71777986E-07   Total=     0.01928640
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.88037350E+00         XY= -0.18223010E+00         XZ= -0.16136260E+00
                YY=  0.12448328E+01         YZ= -0.67823737E-06         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5712076E-02 Y=  0.4712121E-08 Z=  0.4611497E-02  Total=      0.0073412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10106265E+02         XY=  0.28560380E-01         XZ=  0.48353219E-01
                YY= -0.10161239E+02         YZ=  0.23057481E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.55315706E-01 Y= -0.16916023E-11 Z= -0.12903725E-06   Total=     0.05531571
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19951958E+00         XY= -0.52265767E+00         XZ= -0.46280704E+00
                YY=  0.12448334E+01         YZ= -0.12192432E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3610044E-03 Y=  0.4712482E-08 Z=  0.4611346E-02  Total=      0.0046255
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10159776E+02         XY=  0.18050200E-02         XZ=  0.24656068E-01
                YY= -0.10161239E+02         YZ=  0.23056729E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70298839E-01 Y=  0.11676940E-12 Z= -0.14671175E-07   Total=     0.07029884
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.83621174E-01         XY= -0.66422777E+00         XZ= -0.58816431E+00
                YY=  0.12448341E+01         YZ= -0.13862526E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5127214E-02 Y=  0.4719490E-08 Z=  0.4611467E-02  Total=      0.0068959
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10214658E+02         XY= -0.25636072E-01         XZ=  0.35293876E-03
                YY= -0.10161239E+02         YZ=  0.23057332E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.58535157E-01 Y=  0.12026452E-11 Z=  0.11379376E-06   Total=     0.05853516
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13867861E+00         XY= -0.55307708E+00         XZ= -0.48974072E+00
                YY=  0.12448339E+01         YZ=  0.10752018E-05         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8664458E-02 Y=  0.4720935E-08 Z=  0.4611692E-02  Total=      0.0098153
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10250031E+02         XY= -0.43322294E-01         XZ= -0.15310075E-01
                YY= -0.10161239E+02         YZ=  0.23058457E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.24500431E-01 Y=  0.13772524E-11 Z=  0.79740500E-07   Total=     0.02450043
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.78184132E+00         XY= -0.23149552E+00         XZ= -0.20498504E+00
                YY=  0.12448331E+01         YZ=  0.75344677E-06         ZZ=  0.12448343E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8904902E-02 Y=  0.4721657E-08 Z=  0.4611711E-02  Total=      0.0100282
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252435E+02         XY= -0.44524511E-01         XZ= -0.16374735E-01
                YY= -0.10161239E+02         YZ=  0.23058553E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.18856069E-01 Y=  0.10674967E-11 Z= -0.69344630E-07   Total=     0.01885607
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.16011617E+01         XY=  0.17816403E+00         XZ=  0.15776137E+00
                YY=  0.12448328E+01         YZ= -0.65520590E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5757057E-02 Y=  0.4720718E-08 Z=  0.4611498E-02  Total=      0.0073763
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10220956E+02         XY= -0.28785289E-01         XZ= -0.24360396E-02
                YY= -0.10161239E+02         YZ=  0.23057486E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.55038405E-01 Y=  0.11254914E-11 Z= -0.12742834E-06   Total=     0.05503840
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22849101E+01         XY=  0.52003756E+00         XZ=  0.46048504E+00
                YY=  0.12448334E+01         YZ= -0.12040168E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4185864E-03 Y=  0.4719995E-08 Z=  0.4611345E-02  Total=      0.0046303
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10167572E+02         XY= -0.20929343E-02         XZ=  0.21203814E-01
                YY= -0.10161239E+02         YZ=  0.23056724E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70280216E-01 Y=  0.23618854E-11 Z= -0.13879070E-07   Total=     0.07028022
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25729380E+01         XY=  0.66405180E+00         XZ=  0.58800866E+00
                YY=  0.12448341E+01         YZ= -0.13112138E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5079377E-02 Y=  0.4725702E-08 Z=  0.4611463E-02  Total=      0.0068604
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10112592E+02         XY=  0.25396884E-01         XZ=  0.45551307E-01
                YY= -0.10161239E+02         YZ=  0.23057315E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.58782426E-01 Y=  0.50429901E-11 Z=  0.11531723E-06   Total=     0.05878243
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23556597E+01         XY=  0.55541343E+00         XZ=  0.49181201E+00
                YY=  0.12448339E+01         YZ=  0.10896290E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8645017E-02 Y=  0.4727436E-08 Z=  0.4611689E-02  Total=      0.0097982
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10076936E+02         XY=  0.43225085E-01         XZ=  0.61342333E-01
                YY= -0.10161239E+02         YZ=  0.23058444E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.24919622E-01 Y=  0.86282211E-11 Z=  0.82317380E-07   Total=     0.02491962
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17157450E+01         XY=  0.23545630E+00         XZ=  0.20849402E+00
                YY=  0.12448331E+01         YZ=  0.77785532E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8921714E-02 Y=  0.4730109E-08 Z=  0.4611711E-02  Total=      0.0100431
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10074169E+02         XY=  0.44608567E-01         XZ=  0.62567747E-01
                YY= -0.10161239E+02         YZ=  0.23058555E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.18424355E-01 Y=  0.11919858E-10 Z= -0.67568771E-07   Total=     0.01842435
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.89666384E+00         XY= -0.17408492E+00         XZ= -0.15415053E+00
                YY=  0.12448328E+01         YZ= -0.63833620E-06         ZZ=  0.12448319E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5804195E-02 Y=  0.4731626E-08 Z=  0.4611499E-02  Total=      0.0074131
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10105344E+02         XY=  0.29020974E-01         XZ=  0.48761221E-01
                YY= -0.10161239E+02         YZ=  0.23057494E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54758350E-01 Y=  0.13590859E-10 Z= -0.12808468E-06   Total=     0.05475835
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21005210E+00         XY= -0.51739142E+00         XZ= -0.45814428E+00
                YY=  0.12448334E+01         YZ= -0.12101147E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4785926E-03 Y=  0.4734227E-08 Z=  0.4611344E-02  Total=      0.0046361
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10158600E+02         XY=  0.23929608E-02         XZ=  0.25176817E-01
                YY= -0.10161239E+02         YZ=  0.23056720E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70258313E-01 Y=  0.12852617E-10 Z= -0.15858045E-07   Total=     0.07025831
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.82855270E-01         XY= -0.66384485E+00         XZ= -0.58782568E+00
                YY=  0.12448341E+01         YZ= -0.14973266E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5028849E-02 Y=  0.4742607E-08 Z=  0.4611460E-02  Total=      0.0068231
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10213674E+02         XY= -0.25144249E-01         XZ=  0.78851614E-03
                YY= -0.10161239E+02         YZ=  0.23057298E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59026953E-01 Y=  0.99286356E-11 Z=  0.11490226E-06   Total=     0.05902695
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12938509E+00         XY= -0.55772388E+00         XZ= -0.49385576E+00
                YY=  0.12448339E+01         YZ=  0.10857490E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8622702E-02 Y=  0.4744918E-08 Z=  0.4611687E-02  Total=      0.0097785
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249613E+02         XY= -0.43113513E-01         XZ= -0.15125187E-01
                YY= -0.10161239E+02         YZ=  0.23058431E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25337490E-01 Y=  0.60714178E-11 Z=  0.84751420E-07   Total=     0.02533749
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.76602322E+00         XY= -0.23940459E+00         XZ= -0.21198867E+00
                YY=  0.12448331E+01         YZ=  0.80083283E-06         ZZ=  0.12448344E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8935604E-02 Y=  0.4746797E-08 Z=  0.4611712E-02  Total=      0.0100555
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10252742E+02         XY= -0.44678024E-01         XZ= -0.16510701E-01
                YY= -0.10161239E+02         YZ=  0.23058557E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17992187E-01 Y=  0.30656218E-11 Z= -0.64031510E-07   Total=     0.01799219
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15848368E+01         XY=  0.17000153E+00         XZ=  0.15053342E+00
                YY=  0.12448328E+01         YZ= -0.60498719E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5848503E-02 Y=  0.4747375E-08 Z=  0.4611501E-02  Total=      0.0074479
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10221871E+02         XY= -0.29242519E-01         XZ= -0.28409937E-02
                YY= -0.10161239E+02         YZ=  0.23057503E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.54476367E-01 Y=  0.24167999E-11 Z= -0.12588958E-06   Total=     0.05447637
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22742891E+01         XY=  0.51472707E+00         XZ=  0.45578256E+00
                YY=  0.12448334E+01         YZ= -0.11894668E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5359507E-03 Y=  0.4748819E-08 Z=  0.4611344E-02  Total=      0.0046424
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10168745E+02         XY= -0.26797554E-02         XZ=  0.20684061E-01
                YY= -0.10161239E+02         YZ=  0.23056719E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70233858E-01 Y=  0.45985093E-11 Z= -0.15246672E-07   Total=     0.07023386
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25720620E+01         XY=  0.66361378E+00         XZ=  0.58762073E+00
                YY=  0.12448341E+01         YZ= -0.14402491E-06         ZZ=  0.12448340E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4980780E-02 Y=  0.4755899E-08 Z=  0.4611457E-02  Total=      0.0067878
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10113578E+02         XY=  0.24903900E-01         XZ=  0.45114637E-01
                YY= -0.10161239E+02         YZ=  0.23057285E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59269383E-01 Y=  0.87311898E-11 Z=  0.11558287E-06   Total=     0.05926938
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23648619E+01         XY=  0.56001451E+00         XZ=  0.49588622E+00
                YY=  0.12448339E+01         YZ=  0.10921693E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8602732E-02 Y=  0.4757488E-08 Z=  0.4611685E-02  Total=      0.0097609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077359E+02         XY=  0.43013660E-01         XZ=  0.61155039E-01
                YY= -0.10161239E+02         YZ=  0.23058421E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.25754616E-01 Y=  0.12883705E-10 Z=  0.86247164E-07   Total=     0.02575462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17315241E+01         XY=  0.24334586E+00         XZ=  0.21548020E+00
                YY=  0.12448331E+01         YZ=  0.81502160E-06         ZZ=  0.12448345E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8951859E-02 Y=  0.4760089E-08 Z=  0.4611713E-02  Total=      0.0100699
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073867E+02         XY=  0.44759291E-01         XZ=  0.62701231E-01
                YY= -0.10161239E+02         YZ=  0.23058562E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.17559023E-01 Y=  0.14904261E-10 Z= -0.63057784E-07   Total=     0.01755902
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.91301624E+00         XY= -0.16590873E+00         XZ= -0.14691053E+00
                YY=  0.12448328E+01         YZ= -0.59568884E-06         ZZ=  0.12448320E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5895329E-02 Y=  0.4761534E-08 Z=  0.4611503E-02  Total=      0.0074847
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10104432E+02         XY=  0.29476642E-01         XZ=  0.49164800E-01
                YY= -0.10161239E+02         YZ=  0.23057514E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.54191927E-01 Y=  0.13420804E-10 Z= -0.12671418E-06   Total=     0.05419193
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22075597E+00         XY= -0.51203950E+00         XZ= -0.45340518E+00
                YY=  0.12448334E+01         YZ= -0.11971669E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5960681E-03 Y=  0.4762328E-08 Z=  0.4611344E-02  Total=      0.0046497
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10157425E+02         XY=  0.29803387E-02         XZ=  0.25697026E-01
                YY= -0.10161239E+02         YZ=  0.23056719E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70206315E-01 Y=  0.85508386E-11 Z= -0.16695061E-07   Total=     0.07020631
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.81872592E-01         XY= -0.66335354E+00         XZ= -0.58739066E+00
                YY=  0.12448341E+01         YZ= -0.15767743E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4929703E-02 Y=  0.4768758E-08 Z=  0.4611455E-02  Total=      0.0067504
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10212683E+02         XY= -0.24648515E-01         XZ=  0.12275333E-02
                YY= -0.10161239E+02         YZ=  0.23057272E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59509167E-01 Y=  0.19662201E-11 Z=  0.11619656E-06   Total=     0.05950917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12027263E+00         XY= -0.56228014E+00         XZ= -0.49789034E+00
                YY=  0.12448339E+01         YZ=  0.10979114E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8579582E-02 Y=  0.4769480E-08 Z=  0.4611683E-02  Total=      0.0097405
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10249182E+02         XY= -0.42897911E-01         XZ= -0.14934273E-01
                YY= -0.10161239E+02         YZ=  0.23058411E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26170446E-01 Y= -0.37585902E-11 Z=  0.89840661E-07   Total=     0.02617045
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.75028265E+00         XY= -0.24727488E+00         XZ= -0.21895781E+00
                YY=  0.12448331E+01         YZ=  0.84883630E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8964892E-02 Y=  0.4768324E-08 Z=  0.4611714E-02  Total=      0.0100815
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253035E+02         XY= -0.44824464E-01         XZ= -0.16640414E-01
                YY= -0.10161239E+02         YZ=  0.23058568E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.17125406E-01 Y= -0.62535594E-11 Z= -0.58640950E-07   Total=     0.01712541
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15684570E+01         XY=  0.16181164E+00         XZ=  0.14328121E+00
                YY=  0.12448328E+01         YZ= -0.55413274E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.5939033E-02 Y=  0.4767169E-08 Z=  0.4611506E-02  Total=      0.0075192
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10222776E+02         XY= -0.29695169E-01         XZ= -0.32419054E-02
                YY= -0.10161239E+02         YZ=  0.23057527E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53905539E-01 Y= -0.44294376E-11 Z= -0.12421903E-06   Total=     0.05390554
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22635020E+01         XY=  0.50933352E+00         XZ=  0.45100640E+00
                YY=  0.12448334E+01         YZ= -0.11737409E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6532573E-03 Y=  0.4767530E-08 Z=  0.4611345E-02  Total=      0.0046574
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10169918E+02         XY= -0.32662884E-02         XZ=  0.20164540E-01
                YY= -0.10161239E+02         YZ=  0.23056723E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70176143E-01 Y=  0.97101714E-12 Z= -0.16392304E-07   Total=     0.07017614
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25709714E+01         XY=  0.66306845E+00         XZ=  0.58713757E+00
                YY=  0.12448341E+01         YZ= -0.15488115E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4881347E-02 Y=  0.4773815E-08 Z=  0.4611453E-02  Total=      0.0067151
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10114572E+02         XY=  0.24406734E-01         XZ=  0.44674230E-01
                YY= -0.10161239E+02         YZ=  0.23057264E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.59746703E-01 Y=  0.76226271E-11 Z=  0.11625133E-06   Total=     0.05974670
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23738820E+01         XY=  0.56452453E+00         XZ=  0.49987955E+00
                YY=  0.12448339E+01         YZ=  0.10984750E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8559018E-02 Y=  0.4775549E-08 Z=  0.4611681E-02  Total=      0.0097224
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10077796E+02         XY=  0.42795091E-01         XZ=  0.60961373E-01
                YY= -0.10161239E+02         YZ=  0.23058405E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.26585315E-01 Y=  0.12589943E-10 Z=  0.90848058E-07   Total=     0.02658531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17472221E+01         XY=  0.25119482E+00         XZ=  0.22243020E+00
                YY=  0.12448331E+01         YZ=  0.85849034E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8980505E-02 Y=  0.4777210E-08 Z=  0.4611716E-02  Total=      0.0100954
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073581E+02         XY=  0.44902524E-01         XZ=  0.62828026E-01
                YY= -0.10161239E+02         YZ=  0.23058576E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16691057E-01 Y=  0.13609730E-10 Z= -0.57697569E-07   Total=     0.01669106
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.92941842E+00         XY= -0.15770763E+00         XZ= -0.13964864E+00
                YY=  0.12448328E+01         YZ= -0.54505386E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.5985442E-02 Y=  0.4777788E-08 Z=  0.4611509E-02  Total=      0.0075559
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10103531E+02         XY=  0.29927208E-01         XZ=  0.49563799E-01
                YY= -0.10161239E+02         YZ=  0.23057542E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53616975E-01 Y=  0.10115443E-10 Z= -0.12465018E-06   Total=     0.05361698
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23162099E+00         XY= -0.50660699E+00         XZ= -0.44859481E+00
                YY=  0.12448334E+01         YZ= -0.11776935E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7133636E-03 Y=  0.4778872E-08 Z=  0.4611346E-02  Total=      0.0046662
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10156252E+02         XY=  0.35668158E-02         XZ=  0.26216376E-01
                YY= -0.10161239E+02         YZ=  0.23056727E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70143165E-01 Y=  0.35391685E-11 Z= -0.17386734E-07   Total=     0.07014317
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80679191E-01         XY= -0.66275686E+00         XZ= -0.58686234E+00
                YY=  0.12448341E+01         YZ= -0.16425584E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4829854E-02 Y=  0.4785373E-08 Z=  0.4611451E-02  Total=      0.0066778
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10211684E+02         XY= -0.24149271E-01         XZ=  0.16695968E-02
                YY= -0.10161239E+02         YZ=  0.23057255E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59981869E-01 Y= -0.32671947E-11 Z=  0.11692130E-06   Total=     0.05998187
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11133990E+00         XY= -0.56674652E+00         XZ= -0.50184525E+00
                YY=  0.12448339E+01         YZ=  0.11047141E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8535172E-02 Y=  0.4786168E-08 Z=  0.4611680E-02  Total=      0.0097014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248738E+02         XY= -0.42675864E-01         XZ= -0.14737710E-01
                YY= -0.10161239E+02         YZ=  0.23058400E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.26999166E-01 Y= -0.72536432E-11 Z=  0.93802976E-07   Total=     0.02699917
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.73462212E+00         XY= -0.25510515E+00         XZ= -0.22589137E+00
                YY=  0.12448331E+01         YZ=  0.88624405E-06         ZZ=  0.12448346E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8992824E-02 Y=  0.4786312E-08 Z=  0.4611718E-02  Total=      0.0101064
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253314E+02         XY= -0.44964122E-01         XZ= -0.16764175E-01
                YY= -0.10161239E+02         YZ=  0.23058586E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.16255954E-01 Y= -0.65090757E-11 Z= -0.54618464E-07   Total=     0.01625595
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15520267E+01         XY=  0.15359651E+00         XZ=  0.13600685E+00
                YY=  0.12448328E+01         YZ= -0.51612934E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6028686E-02 Y=  0.4785518E-08 Z=  0.4611512E-02  Total=      0.0075902
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10223673E+02         XY= -0.30143432E-01         XZ= -0.36389777E-02
                YY= -0.10161239E+02         YZ=  0.23057559E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.53326128E-01 Y= -0.11270172E-11 Z= -0.12390873E-06   Total=     0.05332613
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22525528E+01         XY=  0.50385889E+00         XZ=  0.44615864E+00
                YY=  0.12448334E+01         YZ= -0.11707826E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7705311E-03 Y=  0.4784723E-08 Z=  0.4611347E-02  Total=      0.0046753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10171091E+02         XY= -0.38526573E-02         XZ=  0.19645127E-01
                YY= -0.10161239E+02         YZ=  0.23056734E-01         ZZ= -0.12217325E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70107181E-01 Y=  0.67912712E-11 Z= -0.18780232E-07   Total=     0.07010718
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25696683E+01         XY=  0.66241686E+00         XZ=  0.58656049E+00
                YY=  0.12448341E+01         YZ= -0.17739619E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4781057E-02 Y=  0.4790936E-08 Z=  0.4611450E-02  Total=      0.0066426
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10115575E+02         XY=  0.23905283E-01         XZ=  0.44229994E-01
                YY= -0.10161239E+02         YZ=  0.23057249E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60214374E-01 Y=  0.14008625E-10 Z=  0.11582791E-06   Total=     0.06021437
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23827197E+01         XY=  0.56894338E+00         XZ=  0.50379227E+00
                YY=  0.12448339E+01         YZ=  0.10945268E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8513850E-02 Y=  0.4792164E-08 Z=  0.4611680E-02  Total=      0.0096826
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078247E+02         XY=  0.42569247E-01         XZ=  0.60761233E-01
                YY= -0.10161239E+02         YZ=  0.23058396E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.27411627E-01 Y=  0.17528376E-10 Z=  0.94492894E-07   Total=     0.02741163
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17628371E+01         XY=  0.25900234E+00         XZ=  0.22934356E+00
                YY=  0.12448331E+01         YZ=  0.89296964E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9007619E-02 Y=  0.4794042E-08 Z=  0.4611720E-02  Total=      0.0101195
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073310E+02         XY=  0.45038094E-01         XZ=  0.62948002E-01
                YY= -0.10161239E+02         YZ=  0.23058596E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.15820545E-01 Y=  0.15878871E-10 Z= -0.53255690E-07   Total=     0.01582055
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94586868E+00         XY= -0.14948249E+00         XZ= -0.13236548E+00
                YY=  0.12448328E+01         YZ= -0.50306581E-06         ZZ=  0.12448321E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6074494E-02 Y=  0.4794765E-08 Z=  0.4611516E-02  Total=      0.0076266
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10102641E+02         XY=  0.30372468E-01         XZ=  0.49958066E-01
                YY= -0.10161239E+02         YZ=  0.23057576E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.53033511E-01 Y=  0.97486067E-11 Z= -0.12361622E-06   Total=     0.05303351
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24264686E+00         XY= -0.50109406E+00         XZ= -0.44371330E+00
                YY=  0.12448334E+01         YZ= -0.11679276E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8304402E-03 Y=  0.4796426E-08 Z=  0.4611349E-02  Total=      0.0046855
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10155081E+02         XY=  0.41521989E-02         XZ=  0.26734720E-01
                YY= -0.10161239E+02         YZ=  0.23056741E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.70068770E-01 Y=  0.16954704E-11 Z= -0.19251814E-07   Total=     0.07006877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.79273287E-01         XY= -0.66205393E+00         XZ= -0.58624002E+00
                YY=  0.12448341E+01         YZ= -0.18189414E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4729331E-02 Y=  0.4803072E-08 Z=  0.4611449E-02  Total=      0.0066055
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10210679E+02         XY= -0.23646657E-01         XZ=  0.21146057E-02
                YY= -0.10161239E+02         YZ=  0.23057243E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60444868E-01 Y= -0.49437941E-11 Z=  0.11656105E-06   Total=     0.06044487
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10259052E+00         XY= -0.57112124E+00         XZ= -0.50571908E+00
                YY=  0.12448339E+01         YZ=  0.11012960E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8489486E-02 Y=  0.4803867E-08 Z=  0.4611679E-02  Total=      0.0096612
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10248281E+02         XY= -0.42447430E-01         XZ= -0.14535532E-01
                YY= -0.10161239E+02         YZ=  0.23058393E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.27823421E-01 Y= -0.74723106E-11 Z=  0.97172924E-07   Total=     0.02782342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.71904597E+00         XY= -0.26289323E+00         XZ= -0.23278762E+00
                YY=  0.12448332E+01         YZ=  0.91808362E-06         ZZ=  0.12448347E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9019394E-02 Y=  0.4804734E-08 Z=  0.4611722E-02  Total=      0.0101300
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253580E+02         XY= -0.45096970E-01         XZ= -0.16881944E-01
                YY= -0.10161239E+02         YZ=  0.23058608E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.15384029E-01 Y= -0.49708227E-11 Z= -0.50417158E-07   Total=     0.01538403
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15355497E+01         XY=  0.14535801E+00         XZ=  0.12871180E+00
                YY=  0.12448328E+01         YZ= -0.47641957E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6117444E-02 Y=  0.4803795E-08 Z=  0.4611520E-02  Total=      0.0076609
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10224560E+02         XY= -0.30587220E-01         XZ= -0.40321221E-02
                YY= -0.10161239E+02         YZ=  0.23057596E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52738248E-01 Y=  0.13322315E-11 Z= -0.12272191E-06   Total=     0.05273825
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22414434E+01         XY=  0.49830423E+00         XZ=  0.44124009E+00
                YY=  0.12448334E+01         YZ= -0.11595476E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8877500E-03 Y=  0.4803433E-08 Z=  0.4611351E-02  Total=      0.0046960
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10172263E+02         XY= -0.44387521E-02         XZ=  0.19125927E-01
                YY= -0.10161239E+02         YZ=  0.23056751E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.70026987E-01 Y=  0.86070397E-11 Z= -0.19961298E-07   Total=     0.07002699
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25681529E+01         XY=  0.66165914E+00         XZ=  0.58588956E+00
                YY=  0.12448341E+01         YZ= -0.18853947E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4679929E-02 Y=  0.4809718E-08 Z=  0.4611449E-02  Total=      0.0065702
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10116586E+02         XY=  0.23399643E-01         XZ=  0.43782026E-01
                YY= -0.10161239E+02         YZ=  0.23057241E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.60672350E-01 Y=  0.13641829E-10 Z=  0.11653120E-06   Total=     0.06067235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23913743E+01         XY=  0.57327062E+00         XZ=  0.50762404E+00
                YY=  0.12448339E+01         YZ=  0.11011703E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8467240E-02 Y=  0.4810874E-08 Z=  0.4611679E-02  Total=      0.0096417
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10078713E+02         XY=  0.42336198E-01         XZ=  0.60554698E-01
                YY= -0.10161239E+02         YZ=  0.23058392E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28233503E-01 Y=  0.14205519E-10 Z=  0.98913910E-07   Total=     0.02823350
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17783683E+01         XY=  0.26676794E+00         XZ=  0.23621999E+00
                YY=  0.12448332E+01         YZ=  0.93471615E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9033210E-02 Y=  0.4811813E-08 Z=  0.4611725E-02  Total=      0.0101423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10073054E+02         XY=  0.45166049E-01         XZ=  0.63061228E-01
                YY= -0.10161239E+02         YZ=  0.23058622E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14947481E-01 Y=  0.99749911E-11 Z= -0.48512832E-07   Total=     0.01494748
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.96236718E+00         XY= -0.14123323E+00         XZ= -0.12506079E+00
                YY=  0.12448328E+01         YZ= -0.45829959E-06         ZZ=  0.12448322E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6162497E-02 Y=  0.4812319E-08 Z=  0.4611524E-02  Total=      0.0076969
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10101761E+02         XY=  0.30812482E-01         XZ=  0.50347689E-01
                YY= -0.10161239E+02         YZ=  0.23057617E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52441439E-01 Y=  0.26402716E-11 Z= -0.12278251E-06   Total=     0.05244144
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25383541E+00         XY= -0.49549979E+00         XZ= -0.43875962E+00
                YY=  0.12448334E+01         YZ= -0.11601073E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9473187E-03 Y=  0.4812969E-08 Z=  0.4611353E-02  Total=      0.0047077
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10153912E+02         XY=  0.47365917E-02         XZ=  0.27252196E-01
                YY= -0.10161239E+02         YZ=  0.23056763E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69982957E-01 Y= -0.48359809E-11 Z= -0.21716099E-07   Total=     0.06998296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.77651617E-01         XY= -0.66124311E+00         XZ= -0.58552208E+00
                YY=  0.12448341E+01         YZ= -0.20523032E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4628100E-02 Y=  0.4819832E-08 Z=  0.4611448E-02  Total=      0.0065334
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10209667E+02         XY= -0.23140502E-01         XZ=  0.25627608E-02
                YY= -0.10161239E+02         YZ=  0.23057239E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.60897969E-01 Y= -0.94735986E-11 Z=  0.11547214E-06   Total=     0.06089797
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.94028184E-01         XY= -0.57540242E+00         XZ= -0.50951005E+00
                YY=  0.12448339E+01         YZ=  0.10909720E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8442474E-02 Y=  0.4820771E-08 Z=  0.4611679E-02  Total=      0.0096199
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247810E+02         XY= -0.42212370E-01         XZ= -0.14327475E-01
                YY= -0.10161239E+02         YZ=  0.23058392E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.28643061E-01 Y= -0.95019248E-11 Z=  0.10001651E-06   Total=     0.02864306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.70355702E+00         XY= -0.27063770E+00         XZ= -0.23964529E+00
                YY=  0.12448332E+01         YZ=  0.94493742E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9044546E-02 Y=  0.4820410E-08 Z=  0.4611728E-02  Total=      0.0101524
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10253831E+02         XY= -0.45222730E-01         XZ= -0.16993429E-01
                YY= -0.10161239E+02         YZ=  0.23058637E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14509669E-01 Y= -0.50482227E-11 Z= -0.46373330E-07   Total=     0.01450967
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15190266E+01         XY=  0.13709651E+00         XZ=  0.12139629E+00
                YY=  0.12448328E+01         YZ= -0.43820869E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6205251E-02 Y=  0.4819904E-08 Z=  0.4611528E-02  Total=      0.0077312
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10225438E+02         XY= -0.31026259E-01         XZ= -0.44210588E-02
                YY= -0.10161239E+02         YZ=  0.23057639E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.52141797E-01 Y=  0.19849839E-11 Z= -0.12144971E-06   Total=     0.05214180
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22301721E+01         XY=  0.49266858E+00         XZ=  0.43624969E+00
                YY=  0.12448333E+01         YZ= -0.11475185E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1004871E-02 Y=  0.4820049E-08 Z=  0.4611356E-02  Total=      0.0047196
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10173434E+02         XY= -0.50243565E-02         XZ=  0.18607159E-01
                YY= -0.10161239E+02         YZ=  0.23056776E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69935331E-01 Y=  0.87702807E-11 Z= -0.21104169E-07   Total=     0.06993533
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25664208E+01         XY=  0.66079311E+00         XZ=  0.58512256E+00
                YY=  0.12448340E+01         YZ= -0.19933331E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4577987E-02 Y=  0.4826117E-08 Z=  0.4611448E-02  Total=      0.0064980
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10117606E+02         XY=  0.22889934E-01         XZ=  0.43330445E-01
                YY= -0.10161239E+02         YZ=  0.23057239E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61120318E-01 Y=  0.12748931E-10 Z=  0.11703246E-06   Total=     0.06112032
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.23998397E+01         XY=  0.57750332E+00         XZ=  0.51137190E+00
                YY=  0.12448339E+01         YZ=  0.11059025E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8419191E-02 Y=  0.4827779E-08 Z=  0.4611679E-02  Total=      0.0095995
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079194E+02         XY=  0.42095953E-01         XZ=  0.60341771E-01
                YY= -0.10161239E+02         YZ=  0.23058395E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29050623E-01 Y=  0.12659122E-10 Z=  0.10292418E-06   Total=     0.02905062
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.17938096E+01         XY=  0.27448861E+00         XZ=  0.24305645E+00
                YY=  0.12448332E+01         YZ=  0.97259841E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9057261E-02 Y=  0.4830307E-08 Z=  0.4611731E-02  Total=      0.0101638
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072813E+02         XY=  0.45286302E-01         XZ=  0.63167609E-01
                YY= -0.10161239E+02         YZ=  0.23058655E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14072123E-01 Y=  0.89791178E-11 Z= -0.44230029E-07   Total=     0.01407212
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.97890902E+00         XY= -0.13296229E+00         XZ= -0.11773703E+00
                YY=  0.12448328E+01         YZ= -0.41783776E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6249421E-02 Y=  0.4832185E-08 Z=  0.4611533E-02  Total=      0.0077667
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100891E+02         XY=  0.31247101E-01         XZ=  0.50732508E-01
                YY= -0.10161239E+02         YZ=  0.23057665E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51840905E-01 Y=  0.36321829E-11 Z= -0.12232322E-06   Total=     0.05184090
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.26518383E+00         XY= -0.48982556E+00         XZ= -0.43373520E+00
                YY=  0.12448333E+01         YZ= -0.11557561E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1063967E-02 Y=  0.4833052E-08 Z=  0.4611359E-02  Total=      0.0047325
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10152746E+02         XY=  0.53198345E-02         XZ=  0.27768626E-01
                YY= -0.10161239E+02         YZ=  0.23056791E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69885742E-01 Y= -0.88118257E-12 Z= -0.24387999E-07   Total=     0.06988574
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.75814502E-01         XY= -0.66032456E+00         XZ= -0.58470871E+00
                YY=  0.12448340E+01         YZ= -0.23044016E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4526185E-02 Y=  0.4838831E-08 Z=  0.4611449E-02  Total=      0.0064616
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10208647E+02         XY= -0.22630927E-01         XZ=  0.30139221E-02
                YY= -0.10161239E+02         YZ=  0.23057241E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61341067E-01 Y= -0.25334502E-11 Z=  0.11442061E-06   Total=     0.06134107
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.85654875E-01         XY= -0.57958909E+00         XZ= -0.51321719E+00
                YY=  0.12448339E+01         YZ=  0.10810971E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8394145E-02 Y=  0.4839843E-08 Z=  0.4611680E-02  Total=      0.0095775
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10247327E+02         XY= -0.41970725E-01         XZ= -0.14113603E-01
                YY= -0.10161239E+02         YZ=  0.23058397E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.29457890E-01 Y= -0.55798365E-12 Z=  0.10318254E-06   Total=     0.02945789
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.68815896E+00         XY= -0.27833672E+00         XZ= -0.24646244E+00
                YY=  0.12448332E+01         YZ=  0.97492929E-06         ZZ=  0.12448348E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9068267E-02 Y=  0.4841649E-08 Z=  0.4611735E-02  Total=      0.0101736
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254068E+02         XY= -0.45341339E-01         XZ= -0.17098583E-01
                YY= -0.10161239E+02         YZ=  0.23058671E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.13633127E-01 Y=  0.43259162E-11 Z= -0.41852090E-07   Total=     0.01363313
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15024623E+01         XY=  0.12881438E+00         XZ=  0.11406289E+00
                YY=  0.12448328E+01         YZ= -0.39540838E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6292075E-02 Y=  0.4842949E-08 Z=  0.4611538E-02  Total=      0.0078011
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10226306E+02         XY= -0.31460375E-01         XZ= -0.48056192E-02
                YY= -0.10161239E+02         YZ=  0.23057690E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.51537045E-01 Y=  0.10300332E-10 Z= -0.11988198E-06   Total=     0.05153705
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22187440E+01         XY=  0.48695451E+00         XZ=  0.43119029E+00
                YY=  0.12448333E+01         YZ= -0.11326337E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1121837E-02 Y=  0.4843455E-08 Z=  0.4611362E-02  Total=      0.0047459
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10174604E+02         XY= -0.56091854E-02         XZ=  0.18089112E-01
                YY= -0.10161239E+02         YZ=  0.23056808E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69832478E-01 Y=  0.15239856E-10 Z= -0.22488196E-07   Total=     0.06983248
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25644772E+01         XY=  0.65982130E+00         XZ=  0.58426235E+00
                YY=  0.12448340E+01         YZ= -0.21235403E-06         ZZ=  0.12448339E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4475308E-02 Y=  0.4848801E-08 Z=  0.4611449E-02  Total=      0.0064260
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10118632E+02         XY=  0.22376539E-01         XZ=  0.42875652E-01
                YY= -0.10161239E+02         YZ=  0.23057245E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61558524E-01 Y=  0.17553110E-10 Z=  0.11664993E-06   Total=     0.06155852
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24081206E+01         XY=  0.58164376E+00         XZ=  0.51503849E+00
                YY=  0.12448339E+01         YZ=  0.11023304E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8369795E-02 Y=  0.4849957E-08 Z=  0.4611681E-02  Total=      0.0095562
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10079688E+02         XY=  0.41848975E-01         XZ=  0.60122950E-01
                YY= -0.10161239E+02         YZ=  0.23058404E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29863196E-01 Y=  0.16731904E-10 Z=  0.10562293E-06   Total=     0.02986320
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18091650E+01         XY=  0.28216631E+00         XZ=  0.24985519E+00
                YY=  0.12448332E+01         YZ=  0.99813357E-06         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9079875E-02 Y=  0.4852196E-08 Z=  0.4611739E-02  Total=      0.0101839
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072587E+02         XY=  0.45399374E-01         XZ=  0.63267709E-01
                YY= -0.10161239E+02         YZ=  0.23058692E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.13194312E-01 Y=  0.13423584E-10 Z= -0.41339154E-07   Total=     0.01319431
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.99549720E+00         XY= -0.12466818E+00         XZ= -0.11039257E+00
                YY=  0.12448328E+01         YZ= -0.39048474E-06         ZZ=  0.12448323E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6335376E-02 Y=  0.4854074E-08 Z=  0.4611544E-02  Total=      0.0078360
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10100032E+02         XY=  0.31676880E-01         XZ=  0.51113124E-01
                YY= -0.10161239E+02         YZ=  0.23057718E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.51231814E-01 Y=  0.90568300E-11 Z= -0.12308685E-06   Total=     0.05123181
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.27669396E+00         XY= -0.48407049E+00         XZ= -0.42863918E+00
                YY=  0.12448333E+01         YZ= -0.11629254E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1180498E-02 Y=  0.4855736E-08 Z=  0.4611365E-02  Total=      0.0047601
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10151580E+02         XY=  0.59024872E-02         XZ=  0.28284617E-01
                YY= -0.10161239E+02         YZ=  0.23056826E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69777104E-01 Y=  0.52209267E-11 Z= -0.28013481E-07   Total=     0.06977710
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.73761534E-01         XY= -0.65929809E+00         XZ= -0.58379993E+00
                YY=  0.12448340E+01         YZ= -0.26464477E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4423479E-02 Y=  0.4862815E-08 Z=  0.4611450E-02  Total=      0.0063900
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10207620E+02         XY= -0.22117396E-01         XZ=  0.34686605E-02
                YY= -0.10161239E+02         YZ=  0.23057247E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61774223E-01 Y=  0.30749855E-11 Z=  0.11273013E-06   Total=     0.06177422
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.77469437E-01         XY= -0.58368182E+00         XZ= -0.51684145E+00
                YY=  0.12448339E+01         YZ=  0.10651714E-05         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8344403E-02 Y=  0.4864549E-08 Z=  0.4611682E-02  Total=      0.0095340
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246830E+02         XY= -0.41722018E-01         XZ= -0.13893416E-01
                YY= -0.10161239E+02         YZ=  0.23058406E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.30268051E-01 Y=  0.30037239E-11 Z=  0.10606083E-06   Total=     0.03026805
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.67284912E+00         XY= -0.28599163E+00         XZ= -0.25324095E+00
                YY=  0.12448332E+01         YZ=  0.10021550E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9090481E-02 Y=  0.4865633E-08 Z=  0.4611742E-02  Total=      0.0101934
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254290E+02         XY= -0.45452405E-01         XZ= -0.17197016E-01
                YY= -0.10161239E+02         YZ=  0.23058709E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.12754188E-01 Y=  0.46054941E-11 Z= -0.37302309E-07   Total=     0.01275419
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14858528E+01         XY=  0.12050961E+00         XZ=  0.10670898E+00
                YY=  0.12448328E+01         YZ= -0.35241671E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6377856E-02 Y=  0.4865199E-08 Z=  0.4611549E-02  Total=      0.0078704
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10227164E+02         XY= -0.31889284E-01         XZ= -0.51855452E-02
                YY= -0.10161239E+02         YZ=  0.23057744E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50923737E-01 Y=  0.69538515E-11 Z= -0.11810516E-06   Total=     0.05092374
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.22071541E+01         XY=  0.48115958E+00         XZ=  0.42605884E+00
                YY=  0.12448333E+01         YZ= -0.11158731E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1238615E-02 Y=  0.4864838E-08 Z=  0.4611369E-02  Total=      0.0047748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10175771E+02         XY= -0.61930748E-02         XZ=  0.17571904E-01
                YY= -0.10161239E+02         YZ=  0.23056845E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69718160E-01 Y=  0.89820948E-11 Z= -0.23603448E-07   Total=     0.06971816
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25623170E+01         XY=  0.65874115E+00         XZ=  0.58330582E+00
                YY=  0.12448340E+01         YZ= -0.22294412E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4371902E-02 Y=  0.4870328E-08 Z=  0.4611452E-02  Total=      0.0063544
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10119666E+02         XY=  0.21859507E-01         XZ=  0.42417634E-01
                YY= -0.10161239E+02         YZ=  0.23057256E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.61986726E-01 Y=  0.98325118E-11 Z=  0.11663692E-06   Total=     0.06198673
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24162124E+01         XY=  0.58568968E+00         XZ=  0.51862115E+00
                YY=  0.12448339E+01         YZ=  0.11021425E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8319044E-02 Y=  0.4872785E-08 Z=  0.4611684E-02  Total=      0.0095118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080195E+02         XY=  0.41595219E-01         XZ=  0.59898117E-01
                YY= -0.10161239E+02         YZ=  0.23058416E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.30671051E-01 Y=  0.90696836E-11 Z=  0.10897025E-06   Total=     0.03067105
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18244312E+01         XY=  0.28979943E+00         XZ=  0.25661442E+00
                YY=  0.12448332E+01         YZ=  0.10296963E-05         ZZ=  0.12448349E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9101034E-02 Y=  0.4874952E-08 Z=  0.4611747E-02  Total=      0.0102028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072375E+02         XY=  0.45505167E-01         XZ=  0.63361359E-01
                YY= -0.10161239E+02         YZ=  0.23058734E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.12314106E-01 Y=  0.67380718E-11 Z= -0.37409197E-07   Total=     0.01231411
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10121306E+01         XY= -0.11635144E+00         XZ= -0.10302789E+00
                YY=  0.12448328E+01         YZ= -0.35340884E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6420345E-02 Y=  0.4876180E-08 Z=  0.4611556E-02  Total=      0.0079049
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10099182E+02         XY=  0.32101725E-01         XZ=  0.51489381E-01
                YY= -0.10161239E+02         YZ=  0.23057776E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.50614082E-01 Y=  0.32987394E-11 Z= -0.12253430E-06   Total=     0.05061408
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.28836740E+00         XY= -0.47823376E+00         XZ= -0.42347046E+00
                YY=  0.12448333E+01         YZ= -0.11577536E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1296906E-02 Y=  0.4877552E-08 Z=  0.4611373E-02  Total=      0.0047903
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10150416E+02         XY=  0.64845260E-02         XZ=  0.28800098E-01
                YY= -0.10161239E+02         YZ=  0.23056865E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69656804E-01 Y= -0.50197402E-12 Z= -0.30315697E-07   Total=     0.06965680
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.71488170E-01         XY= -0.65816142E+00         XZ= -0.58279302E+00
                YY=  0.12448340E+01         YZ= -0.28644618E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4319960E-02 Y=  0.4883548E-08 Z=  0.4611452E-02  Total=      0.0063188
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10206585E+02         XY= -0.21599801E-01         XZ=  0.39270587E-02
                YY= -0.10161239E+02         YZ=  0.23057260E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62197056E-01 Y= -0.37980934E-11 Z=  0.11214639E-06   Total=     0.06219706
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.69479081E-01         XY= -0.58767701E+00         XZ= -0.52037870E+00
                YY=  0.12448339E+01         YZ=  0.10595979E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8293191E-02 Y=  0.4883693E-08 Z=  0.4611684E-02  Total=      0.0094892
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10246317E+02         XY= -0.41465956E-01         XZ= -0.13666628E-01
                YY= -0.10161240E+02         YZ=  0.23058420E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31073070E-01 Y= -0.57946471E-11 Z=  0.10975100E-06   Total=     0.03107307
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.65763645E+00         XY= -0.29359797E+00         XZ= -0.25997581E+00
                YY=  0.12448332E+01         YZ=  0.10369481E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9111085E-02 Y=  0.4883765E-08 Z=  0.4611751E-02  Total=      0.0102118
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254496E+02         XY= -0.45555428E-01         XZ= -0.17288213E-01
                YY= -0.10161240E+02         YZ=  0.23058753E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11873340E-01 Y= -0.59738764E-11 Z= -0.32249757E-07   Total=     0.01187334
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14692071E+01         XY=  0.11218680E+00         XZ=  0.99339627E-01
                YY=  0.12448328E+01         YZ= -0.30476582E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6462459E-02 Y=  0.4883115E-08 Z=  0.4611561E-02  Total=      0.0079391
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228010E+02         XY= -0.32312296E-01         XZ= -0.55601158E-02
                YY= -0.10161239E+02         YZ=  0.23057805E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.50302265E-01 Y= -0.42814026E-11 Z= -0.11617852E-06   Total=     0.05030227
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21954100E+01         XY=  0.47528753E+00         XZ=  0.42085946E+00
                YY=  0.12448333E+01         YZ= -0.10977633E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1355041E-02 Y=  0.4883187E-08 Z=  0.4611378E-02  Total=      0.0048063
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10176936E+02         XY= -0.67752046E-02         XZ=  0.17056398E-01
                YY= -0.10161239E+02         YZ=  0.23056889E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69592577E-01 Y= -0.12245423E-11 Z= -0.24936704E-07   Total=     0.06959258
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25599438E+01         XY=  0.65755456E+00         XZ=  0.58225521E+00
                YY=  0.12448340E+01         YZ= -0.23562738E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4267939E-02 Y=  0.4888100E-08 Z=  0.4611455E-02  Total=      0.0062834
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10120706E+02         XY=  0.21339693E-01         XZ=  0.41957294E-01
                YY= -0.10161239E+02         YZ=  0.23057272E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62404855E-01 Y=  0.21943003E-11 Z=  0.11619030E-06   Total=     0.06240486
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24241140E+01         XY=  0.58964043E+00         XZ=  0.52211946E+00
                YY=  0.12448339E+01         YZ=  0.10978581E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8267092E-02 Y=  0.4888316E-08 Z=  0.4611687E-02  Total=      0.0094664
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10080714E+02         XY=  0.41335459E-01         XZ=  0.59668097E-01
                YY= -0.10161240E+02         YZ=  0.23058434E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.31473829E-01 Y=  0.47456213E-11 Z=  0.11199257E-06   Total=     0.03147383
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18396016E+01         XY=  0.29738459E+00         XZ=  0.26333087E+00
                YY=  0.12448332E+01         YZ=  0.10582164E-05         ZZ=  0.12448350E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9120853E-02 Y=  0.4888967E-08 Z=  0.4611756E-02  Total=      0.0102205
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10072177E+02         XY=  0.45604264E-01         XZ=  0.63449189E-01
                YY= -0.10161240E+02         YZ=  0.23058780E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.11432114E-01 Y=  0.53936911E-11 Z= -0.33385524E-07   Total=     0.01143211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10287978E+01         XY= -0.10801783E+00         XZ= -0.95648764E-01
                YY=  0.12448328E+01         YZ= -0.31540244E-06         ZZ=  0.12448324E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6504389E-02 Y=  0.4889544E-08 Z=  0.4611568E-02  Total=      0.0079733
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10098341E+02         XY=  0.32521944E-01         XZ=  0.51861628E-01
                YY= -0.10161240E+02         YZ=  0.23057839E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49988471E-01 Y=  0.37302106E-11 Z= -0.12136379E-06   Total=     0.04998847
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.30018972E+00         XY= -0.47232260E+00         XZ= -0.41823644E+00
                YY=  0.12448333E+01         YZ= -0.11466908E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1413190E-02 Y=  0.4890122E-08 Z=  0.4611383E-02  Total=      0.0048231
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10149253E+02         XY=  0.70659465E-02         XZ=  0.29315088E-01
                YY= -0.10161240E+02         YZ=  0.23056911E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69525635E-01 Y=  0.23372047E-12 Z= -0.31575730E-07   Total=     0.06952563
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.69009391E-01         XY= -0.65692205E+00         XZ= -0.58169583E+00
                YY=  0.12448340E+01         YZ= -0.29834594E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4215688E-02 Y=  0.4896118E-08 Z=  0.4611456E-02  Total=      0.0062480
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10205542E+02         XY= -0.21078442E-01         XZ=  0.43888186E-02
                YY= -0.10161240E+02         YZ=  0.23057279E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.62610268E-01 Y= -0.37980346E-11 Z=  0.11287043E-06   Total=     0.06261027
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61670549E-01         XY= -0.59158130E+00         XZ= -0.52383610E+00
                YY=  0.12448340E+01         YZ=  0.10664388E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8240615E-02 Y=  0.4896407E-08 Z=  0.4611689E-02  Total=      0.0094433
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245792E+02         XY= -0.41203077E-01         XZ= -0.13433802E-01
                YY= -0.10161240E+02         YZ=  0.23058441E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.31873474E-01 Y= -0.66732547E-11 Z=  0.11489288E-06   Total=     0.03187347
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.64251102E+00         XY= -0.30116069E+00         XZ= -0.26667260E+00
                YY=  0.12448332E+01         YZ=  0.10855245E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9130221E-02 Y=  0.4895468E-08 Z=  0.4611761E-02  Total=      0.0102288
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254688E+02         XY= -0.45651109E-01         XZ= -0.17372928E-01
                YY= -0.10161240E+02         YZ=  0.23058803E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10990264E-01 Y= -0.69642913E-11 Z= -0.25719038E-07   Total=     0.01099026
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14525194E+01         XY=  0.10384294E+00         XZ=  0.91951240E-01
                YY=  0.12448328E+01         YZ= -0.24306766E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6546038E-02 Y=  0.4894746E-08 Z=  0.4611575E-02  Total=      0.0080073
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10228846E+02         XY= -0.32730191E-01         XZ= -0.59301889E-02
                YY= -0.10161240E+02         YZ=  0.23057873E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49672506E-01 Y= -0.41430284E-11 Z= -0.11289050E-06   Total=     0.04967251
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21835092E+01         XY=  0.46933716E+00         XZ=  0.41559055E+00
                YY=  0.12448333E+01         YZ= -0.10666947E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1471273E-02 Y=  0.4895540E-08 Z=  0.4611388E-02  Total=      0.0048404
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10178098E+02         XY= -0.73563673E-02         XZ=  0.16541710E-01
                YY= -0.10161240E+02         YZ=  0.23056940E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69455757E-01 Y=  0.10878415E-11 Z= -0.25102499E-07   Total=     0.06945576
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25573583E+01         XY=  0.65626180E+00         XZ=  0.58111061E+00
                YY=  0.12448340E+01         YZ= -0.23717433E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4163268E-02 Y=  0.4901031E-08 Z=  0.4611460E-02  Total=      0.0062128
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10121753E+02         XY=  0.20816340E-01         XZ=  0.41493787E-01
                YY= -0.10161240E+02         YZ=  0.23057297E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.62813057E-01 Y=  0.69526560E-11 Z=  0.11681959E-06   Total=     0.06281306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24318279E+01         XY=  0.59349738E+00         XZ=  0.52553497E+00
                YY=  0.12448340E+01         YZ=  0.11038441E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8213803E-02 Y=  0.4902187E-08 Z=  0.4611692E-02  Total=      0.0094199
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081247E+02         XY=  0.41069014E-01         XZ=  0.59432139E-01
                YY= -0.10161240E+02         YZ=  0.23058460E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.32271776E-01 Y=  0.11236978E-10 Z=  0.11621743E-06   Total=     0.03227178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18546806E+01         XY=  0.30492409E+00         XZ=  0.27000736E+00
                YY=  0.12448332E+01         YZ=  0.10981902E-05         ZZ=  0.12448351E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9139220E-02 Y=  0.4903920E-08 Z=  0.4611767E-02  Total=      0.0102369
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071993E+02         XY=  0.45696096E-01         XZ=  0.63530589E-01
                YY= -0.10161240E+02         YZ=  0.23058835E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.10547981E-01 Y=  0.12170935E-10 Z= -0.27941677E-07   Total=     0.01054798
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10455055E+01         XY= -0.99663975E-01         XZ= -0.88251106E-01
                YY=  0.12448328E+01         YZ= -0.26390827E-06         ZZ=  0.12448325E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6587426E-02 Y=  0.4905148E-08 Z=  0.4611583E-02  Total=      0.0080412
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10097511E+02         XY=  0.32937126E-01         XZ=  0.52229445E-01
                YY= -0.10161240E+02         YZ=  0.23057912E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X= -0.49354495E-01 Y=  0.92040197E-11 Z= -0.11876467E-06   Total=     0.04935450
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.31217012E+00         XY= -0.46633240E+00         XZ= -0.41293175E+00
                YY=  0.12448333E+01         YZ= -0.11220859E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1529310E-02 Y=  0.4906882E-08 Z=  0.4611394E-02  Total=      0.0048584
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10148092E+02         XY=  0.76465491E-02         XZ=  0.29829416E-01
                YY= -0.10161240E+02         YZ=  0.23056968E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69382977E-01 Y=  0.33270659E-11 Z= -0.31802197E-07   Total=     0.06938298
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.66313503E-01         XY= -0.65557412E+00         XZ= -0.58050185E+00
                YY=  0.12448340E+01         YZ= -0.30045858E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4110653E-02 Y=  0.4913095E-08 Z=  0.4611462E-02  Total=      0.0061776
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10204492E+02         XY= -0.20553264E-01         XZ=  0.48540485E-02
                YY= -0.10161240E+02         YZ=  0.23057309E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63013149E-01 Y= -0.32336021E-11 Z=  0.11392490E-06   Total=     0.06301315
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.54057235E-01         XY= -0.59538798E+00         XZ= -0.52720649E+00
                YY=  0.12448340E+01         YZ=  0.10764086E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8186611E-02 Y=  0.4913745E-08 Z=  0.4611695E-02  Total=      0.0093962
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10245251E+02         XY= -0.40933058E-01         XZ= -0.13194543E-01
                YY= -0.10161240E+02         YZ=  0.23058471E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32668555E-01 Y= -0.78662161E-11 Z=  0.11963396E-06   Total=     0.03266856
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62748617E+00         XY= -0.30867311E+00         XZ= -0.27332444E+00
                YY=  0.12448332E+01         YZ=  0.11303133E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9147775E-02 Y=  0.4913890E-08 Z=  0.4611773E-02  Total=      0.0102445
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10254863E+02         XY= -0.45738877E-01         XZ= -0.17450511E-01
                YY= -0.10161240E+02         YZ=  0.23058862E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10105537E-01 Y= -0.86400404E-11 Z= -0.20130628E-07   Total=     0.01010554
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14358004E+01         XY=  0.95483484E-01         XZ=  0.84549225E-01
                YY=  0.12448328E+01         YZ= -0.19027651E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6628446E-02 Y=  0.4913239E-08 Z=  0.4611591E-02  Total=      0.0080748
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10229670E+02         XY= -0.33142232E-01         XZ= -0.62949496E-02
                YY= -0.10161240E+02         YZ=  0.23057951E-01         ZZ= -0.12217322E+02
  Expectation value of momentum operator [a. u.]
    X=  0.49034779E-01 Y= -0.51439956E-11 Z= -0.11084778E-06   Total=     0.04903478
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21714579E+01         XY=  0.46331152E+00         XZ=  0.41025489E+00
                YY=  0.12448333E+01         YZ= -0.10473997E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1587155E-02 Y=  0.4912734E-08 Z=  0.4611401E-02  Total=      0.0048769
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10179257E+02         XY= -0.79357783E-02         XZ=  0.16028694E-01
                YY= -0.10161240E+02         YZ=  0.23057002E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69307678E-01 Y=  0.12704079E-11 Z= -0.26609035E-07   Total=     0.06930768
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25545601E+01         XY=  0.65486265E+00         XZ=  0.57987145E+00
                YY=  0.12448340E+01         YZ= -0.25140499E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.4058029E-02 Y=  0.4917935E-08 Z=  0.4611467E-02  Total=      0.0061427
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10122805E+02         XY=  0.20290141E-01         XZ=  0.41027860E-01
                YY= -0.10161240E+02         YZ=  0.23057331E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63210953E-01 Y=  0.79791610E-11 Z=  0.11620076E-06   Total=     0.06321095
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24393471E+01         XY=  0.59725695E+00         XZ=  0.52886366E+00
                YY=  0.12448340E+01         YZ=  0.10980082E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8159271E-02 Y=  0.4919380E-08 Z=  0.4611699E-02  Total=      0.0093724
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10081793E+02         XY=  0.40796354E-01         XZ=  0.59190747E-01
                YY= -0.10161240E+02         YZ=  0.23058493E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33064228E-01 Y=  0.12135155E-10 Z=  0.11941924E-06   Total=     0.03306423
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18696558E+01         XY=  0.31241168E+00         XZ=  0.27663711E+00
                YY=  0.12448333E+01         YZ=  0.11284534E-05         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9156165E-02 Y=  0.4921258E-08 Z=  0.4611780E-02  Total=      0.0102520
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071824E+02         XY=  0.45780824E-01         XZ=  0.63605736E-01
                YY= -0.10161240E+02         YZ=  0.23058896E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.96625194E-02 Y=  0.11857098E-10 Z= -0.23329881E-07   Total=     0.00966252
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10622383E+01         XY= -0.91297577E-01         XZ= -0.80843174E-01
                YY=  0.12448328E+01         YZ= -0.22033243E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6669420E-02 Y=  0.4923570E-08 Z=  0.4611599E-02  Total=      0.0081085
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10096691E+02         XY=  0.33347100E-01         XZ=  0.52592653E-01
                YY= -0.10161240E+02         YZ=  0.23057992E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48712957E-01 Y=  0.70587969E-11 Z= -0.11703915E-06   Total=     0.04871296
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32429344E+00         XY= -0.46027074E+00         XZ= -0.40756460E+00
                YY=  0.12448333E+01         YZ= -0.11057963E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1645173E-02 Y=  0.4925304E-08 Z=  0.4611407E-02  Total=      0.0048961
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10146933E+02         XY=  0.82258640E-02         XZ=  0.30342575E-01
                YY= -0.10161240E+02         YZ=  0.23057032E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69229476E-01 Y= -0.44665170E-12 Z= -0.33213299E-07   Total=     0.06922948
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.63412729E-01         XY= -0.65412375E+00         XZ= -0.57921784E+00
                YY=  0.12448340E+01         YZ= -0.31381887E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.4004989E-02 Y=  0.4929999E-08 Z=  0.4611469E-02  Total=      0.0061078
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10203435E+02         XY= -0.20024949E-01         XZ=  0.53220040E-02
                YY= -0.10161240E+02         YZ=  0.23057345E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63406101E-01 Y= -0.76383792E-11 Z=  0.11340821E-06   Total=     0.06340610
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46631573E-01         XY= -0.59910083E+00         XZ= -0.53049427E+00
                YY=  0.12448340E+01         YZ=  0.10714943E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8131336E-02 Y=  0.4929566E-08 Z=  0.4611702E-02  Total=      0.0093481
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244699E+02         XY= -0.40656680E-01         XZ= -0.12949721E-01
                YY= -0.10161240E+02         YZ=  0.23058507E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.33458445E-01 Y= -0.11507421E-10 Z=  0.12259441E-06   Total=     0.03345844
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.61255944E+00         XY= -0.31613649E+00         XZ= -0.27993305E+00
                YY=  0.12448333E+01         YZ=  0.11582596E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9163902E-02 Y=  0.4928843E-08 Z=  0.4611786E-02  Total=      0.0102589
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255024E+02         XY= -0.45819513E-01         XZ= -0.17521850E-01
                YY= -0.10161240E+02         YZ=  0.23058926E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.92192630E-02 Y= -0.10306402E-10 Z= -0.16276179E-07   Total=     0.00921926
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14190523E+01         XY=  0.87109411E-01         XZ=  0.77134367E-01
                YY=  0.12448328E+01         YZ= -0.15386665E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6709822E-02 Y=  0.4927832E-08 Z=  0.4611607E-02  Total=      0.0081418
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10230483E+02         XY= -0.33549111E-01         XZ= -0.66552014E-02
                YY= -0.10161240E+02         YZ=  0.23058033E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.48389356E-01 Y= -0.43038211E-11 Z= -0.11036114E-06   Total=     0.04838936
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21592612E+01         XY=  0.45721315E+00         XZ=  0.40485523E+00
                YY=  0.12448333E+01         YZ= -0.10427901E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1702798E-02 Y=  0.4927688E-08 Z=  0.4611414E-02  Total=      0.0049158
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10180413E+02         XY= -0.85139901E-02         XZ=  0.15516699E-01
                YY= -0.10161240E+02         YZ=  0.23057068E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.69148710E-01 Y=  0.42865779E-11 Z= -0.29510841E-07   Total=     0.06914871
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25515560E+01         XY=  0.65336062E+00         XZ=  0.57854183E+00
                YY=  0.12448340E+01         YZ= -0.27879346E-06         ZZ=  0.12448338E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3952143E-02 Y=  0.4933250E-08 Z=  0.4611474E-02  Total=      0.0060733
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10123864E+02         XY=  0.19760712E-01         XZ=  0.40559061E-01
                YY= -0.10161240E+02         YZ=  0.23057368E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63598962E-01 Y=  0.12188474E-10 Z=  0.11430336E-06   Total=     0.06359896
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24466795E+01         XY=  0.60092310E+00         XZ=  0.53211043E+00
                YY=  0.12448341E+01         YZ=  0.10801201E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8103457E-02 Y=  0.4934623E-08 Z=  0.4611706E-02  Total=      0.0093238
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082351E+02         XY=  0.40517282E-01         XZ=  0.58943698E-01
                YY= -0.10161240E+02         YZ=  0.23058529E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.33851627E-01 Y=  0.16398575E-10 Z=  0.12144621E-06   Total=     0.03385163
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18845355E+01         XY=  0.31985152E+00         XZ=  0.28322543E+00
                YY=  0.12448333E+01         YZ=  0.11476458E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9171689E-02 Y=  0.4934912E-08 Z=  0.4611792E-02  Total=      0.0102659
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071668E+02         XY=  0.45858444E-01         XZ=  0.63674642E-01
                YY= -0.10161240E+02         YZ=  0.23058960E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.87752752E-02 Y=  0.15422779E-10 Z= -0.19858804E-07   Total=     0.00877528
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10790048E+01         XY= -0.82914334E-01         XZ= -0.73419554E-01
                YY=  0.12448328E+01         YZ= -0.18750077E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6750411E-02 Y=  0.4935562E-08 Z=  0.4611615E-02  Total=      0.0081753
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095881E+02         XY=  0.33752052E-01         XZ=  0.52951496E-01
                YY= -0.10161240E+02         YZ=  0.23058075E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.48063406E-01 Y=  0.98921592E-11 Z= -0.11662463E-06   Total=     0.04806341
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.33656818E+00         XY= -0.45413337E+00         XZ= -0.40212982E+00
                YY=  0.12448333E+01         YZ= -0.11018510E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1760853E-02 Y=  0.4938668E-08 Z=  0.4611420E-02  Total=      0.0049362
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10145776E+02         XY=  0.88042611E-02         XZ=  0.30855022E-01
                YY= -0.10161240E+02         YZ=  0.23057099E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69064729E-01 Y=  0.22973867E-11 Z= -0.36344407E-07   Total=     0.06906473
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.60299425E-01         XY= -0.65256712E+00         XZ= -0.57783942E+00
                YY=  0.12448340E+01         YZ= -0.34337576E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3898595E-02 Y=  0.4945676E-08 Z=  0.4611477E-02  Total=      0.0060386
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10202371E+02         XY= -0.19492977E-01         XZ=  0.57933036E-02
                YY= -0.10161240E+02         YZ=  0.23057383E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.63788829E-01 Y= -0.40493854E-11 Z=  0.11070081E-06   Total=     0.06378883
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.39399111E-01         XY= -0.60271709E+00         XZ= -0.53369653E+00
                YY=  0.12448341E+01         YZ=  0.10459476E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8074667E-02 Y=  0.4946181E-08 Z=  0.4611709E-02  Total=      0.0092988
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10244132E+02         XY= -0.40373337E-01         XZ= -0.12698636E-01
                YY= -0.10161240E+02         YZ=  0.23058543E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34243038E-01 Y= -0.63915129E-11 Z=  0.12309481E-06   Total=     0.03424304
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.59773279E+00         XY= -0.32354982E+00         XZ= -0.28649769E+00
                YY=  0.12448333E+01         YZ=  0.11630347E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9178483E-02 Y=  0.4946470E-08 Z=  0.4611798E-02  Total=      0.0102720
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255170E+02         XY= -0.45892415E-01         XZ= -0.17586268E-01
                YY= -0.10161240E+02         YZ=  0.23058989E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.83312906E-02 Y= -0.36657449E-11 Z= -0.14828022E-07   Total=     0.00833129
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.14022720E+01         XY=  0.78719288E-01         XZ=  0.69704693E-01
                YY=  0.12448329E+01         YZ= -0.14012427E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6790069E-02 Y=  0.4946904E-08 Z=  0.4611623E-02  Total=      0.0082081
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10231286E+02         XY= -0.33950347E-01         XZ= -0.70104141E-02
                YY= -0.10161240E+02         YZ=  0.23058114E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47735805E-01 Y=  0.30712381E-11 Z= -0.11198982E-06   Total=     0.04773581
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21469109E+01         XY=  0.45103800E+00         XZ=  0.39938679E+00
                YY=  0.12448333E+01         YZ= -0.10581138E-05         ZZ=  0.12448318E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1818149E-02 Y=  0.4948421E-08 Z=  0.4611427E-02  Total=      0.0049569
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10181566E+02         XY= -0.90907475E-02         XZ=  0.15005997E-01
                YY= -0.10161240E+02         YZ=  0.23057133E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68978179E-01 Y=  0.11096869E-10 Z= -0.34151151E-07   Total=     0.06897818
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25483335E+01         XY=  0.65174933E+00         XZ=  0.57711459E+00
                YY=  0.12448340E+01         YZ= -0.32257772E-06         ZZ=  0.12448337E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3845601E-02 Y=  0.4955284E-08 Z=  0.4611481E-02  Total=      0.0060045
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10124929E+02         XY=  0.19228002E-01         XZ=  0.40087323E-01
                YY= -0.10161240E+02         YZ=  0.23057404E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.63976272E-01 Y=  0.17156468E-10 Z=  0.11105169E-06   Total=     0.06397627
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24538096E+01         XY=  0.60448817E+00         XZ=  0.53526684E+00
                YY=  0.12448341E+01         YZ=  0.10494411E-05         ZZ=  0.12448359E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.8046282E-02 Y=  0.4957523E-08 Z=  0.4611713E-02  Total=      0.0092742
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10082922E+02         XY=  0.40231406E-01         XZ=  0.58690557E-01
                YY= -0.10161240E+02         YZ=  0.23058562E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.34633171E-01 Y=  0.18795529E-10 Z=  0.12247434E-06   Total=     0.03463317
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18993045E+01         XY=  0.32723605E+00         XZ=  0.28976404E+00
                YY=  0.12448333E+01         YZ=  0.11573836E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9185652E-02 Y=  0.4958823E-08 Z=  0.4611804E-02  Total=      0.0102784
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071529E+02         XY=  0.45928260E-01         XZ=  0.63736542E-01
                YY= -0.10161240E+02         YZ=  0.23059020E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.78868869E-02 Y=  0.15332525E-10 Z= -0.17148415E-07   Total=     0.00788689
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.10957928E+01         XY= -0.74520281E-01         XZ= -0.65986892E-01
                YY=  0.12448329E+01         YZ= -0.16188894E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6830215E-02 Y=  0.4959618E-08 Z=  0.4611631E-02  Total=      0.0082413
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10095083E+02         XY=  0.34151074E-01         XZ=  0.53304978E-01
                YY= -0.10161240E+02         YZ=  0.23058154E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.47406194E-01 Y=  0.80837151E-11 Z= -0.11694818E-06   Total=     0.04740619
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.34898765E+00         XY= -0.44792362E+00         XZ= -0.39663124E+00
                YY=  0.12448333E+01         YZ= -0.11049204E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1876150E-02 Y=  0.4961352E-08 Z=  0.4611433E-02  Total=      0.0049785
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10144623E+02         XY=  0.93807493E-02         XZ=  0.31365664E-01
                YY= -0.10161240E+02         YZ=  0.23057163E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68888741E-01 Y= -0.22863256E-12 Z= -0.40354424E-07   Total=     0.06888874
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.56973713E-01         XY= -0.65090427E+00         XZ= -0.57636698E+00
                YY=  0.12448340E+01         YZ= -0.38128355E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3791656E-02 Y=  0.4966914E-08 Z=  0.4611484E-02  Total=      0.0059701
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10201301E+02         XY= -0.18958282E-01         XZ=  0.62669044E-02
                YY= -0.10161240E+02         YZ=  0.23057418E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64161005E-01 Y= -0.66130946E-11 Z=  0.10704923E-06   Total=     0.06416100
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.32366026E-01         XY= -0.60623364E+00         XZ= -0.53681028E+00
                YY=  0.12448341E+01         YZ=  0.10114258E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.8016757E-02 Y=  0.4967420E-08 Z=  0.4611715E-02  Total=      0.0092486
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10243553E+02         XY= -0.40083788E-01         XZ= -0.12442149E-01
                YY= -0.10161240E+02         YZ=  0.23058575E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35021751E-01 Y= -0.90040382E-11 Z=  0.12287931E-06   Total=     0.03502175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.58301722E+00         XY= -0.33090759E+00         XZ= -0.29301268E+00
                YY=  0.12448333E+01         YZ=  0.11609784E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9191616E-02 Y=  0.4966553E-08 Z=  0.4611810E-02  Total=      0.0102837
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255301E+02         XY= -0.45958083E-01         XZ= -0.17644350E-01
                YY= -0.10161240E+02         YZ=  0.23059047E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.74423462E-02 Y= -0.70290207E-11 Z= -0.13624907E-07   Total=     0.00744235
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13854733E+01         XY=  0.70319980E-01         XZ=  0.62267498E-01
                YY=  0.12448329E+01         YZ= -0.12878316E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6869229E-02 Y=  0.4963663E-08 Z=  0.4611639E-02  Total=      0.0082737
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232077E+02         XY= -0.34346146E-01         XZ= -0.73608527E-02
                YY= -0.10161240E+02         YZ=  0.23058191E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47074877E-01 Y= -0.20600712E-11 Z= -0.11345928E-06   Total=     0.04707488
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21344211E+01         XY=  0.44479313E+00         XZ=  0.39385731E+00
                YY=  0.12448333E+01         YZ= -0.10720399E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.1933195E-02 Y=  0.4961930E-08 Z=  0.4611439E-02  Total=      0.0050003
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10182717E+02         XY= -0.96659761E-02         XZ=  0.14496639E-01
                YY= -0.10161240E+02         YZ=  0.23057194E-01         ZZ= -0.12217324E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68796763E-01 Y=  0.34309358E-11 Z= -0.38583198E-07   Total=     0.06879676
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25449052E+01         XY=  0.65003520E+00         XZ=  0.57559697E+00
                YY=  0.12448340E+01         YZ= -0.36451761E-06         ZZ=  0.12448336E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3738465E-02 Y=  0.4966987E-08 Z=  0.4611488E-02  Total=      0.0059365
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10126000E+02         XY=  0.18692323E-01         XZ=  0.39612974E-01
                YY= -0.10161240E+02         YZ=  0.23057436E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64343424E-01 Y=  0.69091664E-11 Z=  0.10768014E-06   Total=     0.06434342
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24607478E+01         XY=  0.60795725E+00         XZ=  0.53833884E+00
                YY=  0.12448341E+01         YZ=  0.10174997E-05         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7987844E-02 Y=  0.4967709E-08 Z=  0.4611719E-02  Total=      0.0092235
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10083507E+02         XY=  0.39939218E-01         XZ=  0.58431864E-01
                YY= -0.10161240E+02         YZ=  0.23058591E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.35409231E-01 Y=  0.67699378E-11 Z=  0.12289146E-06   Total=     0.03540923
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19139699E+01         XY=  0.33456875E+00         XZ=  0.29625718E+00
                YY=  0.12448333E+01         YZ=  0.11612247E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9198174E-02 Y=  0.4967276E-08 Z=  0.4611816E-02  Total=      0.0102896
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071403E+02         XY=  0.45990870E-01         XZ=  0.63792114E-01
                YY= -0.10161240E+02         YZ=  0.23059076E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.69971647E-02 Y=  0.28993856E-11 Z= -0.15468651E-07   Total=     0.00699716
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11126061E+01         XY= -0.66113625E-01         XZ= -0.58542882E-01
                YY=  0.12448328E+01         YZ= -0.14612115E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6908961E-02 Y=  0.4966770E-08 Z=  0.4611646E-02  Total=      0.0083067
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10094295E+02         XY=  0.34544804E-01         XZ=  0.53653831E-01
                YY= -0.10161240E+02         YZ=  0.23058229E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46741315E-01 Y= -0.33817367E-11 Z= -0.11852927E-06   Total=     0.04674132
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.36155199E+00         XY= -0.44164142E+00         XZ= -0.39106857E+00
                YY=  0.12448333E+01         YZ= -0.11199554E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.1991187E-02 Y=  0.4967998E-08 Z=  0.4611445E-02  Total=      0.0050230
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10143473E+02         XY=  0.99559337E-02         XZ=  0.31875203E-01
                YY= -0.10161240E+02         YZ=  0.23057222E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68701687E-01 Y= -0.99157252E-11 Z= -0.45608527E-07   Total=     0.06870169
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.53438918E-01         XY= -0.64913687E+00         XZ= -0.57480226E+00
                YY=  0.12448340E+01         YZ= -0.43100912E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3684072E-02 Y=  0.4973488E-08 Z=  0.4611490E-02  Total=      0.0059024
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10200226E+02         XY= -0.18420360E-01         XZ=  0.67433997E-02
                YY= -0.10161240E+02         YZ=  0.23057448E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64522984E-01 Y= -0.14568675E-10 Z=  0.10243931E-06   Total=     0.06452298
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25525602E-01         XY= -0.60965385E+00         XZ= -0.53983923E+00
                YY=  0.12448341E+01         YZ=  0.96780096E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7957538E-02 Y=  0.4973416E-08 Z=  0.4611720E-02  Total=      0.0091973
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242960E+02         XY= -0.39787691E-01         XZ= -0.12179852E-01
                YY= -0.10161240E+02         YZ=  0.23058600E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.35795105E-01 Y= -0.16002669E-10 Z=  0.12222581E-06   Total=     0.03579511
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.56840292E+00         XY= -0.33821473E+00         XZ= -0.29948349E+00
                YY=  0.12448334E+01         YZ=  0.11547438E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9203279E-02 Y=  0.4972477E-08 Z=  0.4611820E-02  Total=      0.0102941
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255418E+02         XY= -0.46016399E-01         XZ= -0.17695940E-01
                YY= -0.10161240E+02         YZ=  0.23059098E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65517775E-02 Y= -0.14084023E-10 Z= -0.12278728E-07   Total=     0.00655178
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13686440E+01         XY=  0.61905326E-01         XZ=  0.54815976E-01
                YY=  0.12448328E+01         YZ= -0.11612437E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.6947330E-02 Y=  0.4970599E-08 Z=  0.4611653E-02  Total=      0.0083386
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10232858E+02         XY= -0.34736654E-01         XZ= -0.77066571E-02
                YY= -0.10161240E+02         YZ=  0.23058262E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.46405844E-01 Y= -0.98202681E-11 Z= -0.11436250E-06   Total=     0.04640584
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21217782E+01         XY=  0.43847168E+00         XZ=  0.38825930E+00
                YY=  0.12448332E+01         YZ= -0.10806410E-05         ZZ=  0.12448317E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2048020E-02 Y=  0.4969587E-08 Z=  0.4611450E-02  Total=      0.0050458
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10183865E+02         XY= -0.10240102E-01         XZ=  0.13988175E-01
                YY= -0.10161240E+02         YZ=  0.23057250E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68603732E-01 Y= -0.49045072E-11 Z= -0.42243643E-07   Total=     0.06860373
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25412575E+01         XY=  0.64821133E+00         XZ=  0.57398154E+00
                YY=  0.12448340E+01         YZ= -0.39917566E-06         ZZ=  0.12448335E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3630597E-02 Y=  0.4974138E-08 Z=  0.4611493E-02  Total=      0.0058692
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10127079E+02         XY=  0.18152982E-01         XZ=  0.39135274E-01
                YY= -0.10161240E+02         YZ=  0.23057463E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.64699771E-01 Y= -0.10778906E-11 Z=  0.10523396E-06   Total=     0.06469977
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24674818E+01         XY=  0.61132424E+00         XZ=  0.54131998E+00
                YY=  0.12448341E+01         YZ=  0.99431761E-06         ZZ=  0.12448358E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7927961E-02 Y=  0.4973777E-08 Z=  0.4611723E-02  Total=      0.0091717
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084105E+02         XY=  0.39639803E-01         XZ=  0.58166646E-01
                YY= -0.10161240E+02         YZ=  0.23058615E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36179321E-01 Y=  0.44922426E-12 Z=  0.12453616E-06   Total=     0.03617932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19285224E+01         XY=  0.34184504E+00         XZ=  0.30270013E+00
                YY=  0.12448333E+01         YZ=  0.11767097E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9209044E-02 Y=  0.4973344E-08 Z=  0.4611826E-02  Total=      0.0102993
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071295E+02         XY=  0.46045216E-01         XZ=  0.63840235E-01
                YY= -0.10161240E+02         YZ=  0.23059127E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.61063692E-02 Y= -0.66416275E-12 Z= -0.12129478E-07   Total=     0.00610637
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11294396E+01         XY= -0.57696827E-01         XZ= -0.51089869E-01
                YY=  0.12448328E+01         YZ= -0.11460294E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.6986427E-02 Y=  0.4972405E-08 Z=  0.4611660E-02  Total=      0.0083712
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10093521E+02         XY=  0.34932135E-01         XZ=  0.53996889E-01
                YY= -0.10161240E+02         YZ=  0.23058300E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.46068768E-01 Y= -0.38640939E-11 Z= -0.11814069E-06   Total=     0.04606877
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.37426124E+00         XY= -0.43528677E+00         XZ= -0.38544146E+00
                YY=  0.12448332E+01         YZ= -0.11162909E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2105754E-02 Y=  0.4972766E-08 Z=  0.4611456E-02  Total=      0.0050695
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10142327E+02         XY=  0.10528769E-01         XZ=  0.32382550E-01
                YY= -0.10161240E+02         YZ=  0.23057279E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68503299E-01 Y= -0.79516653E-11 Z= -0.48937240E-07   Total=     0.06850330
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.49689942E-01         XY= -0.64726237E+00         XZ= -0.57314223E+00
                YY=  0.12448340E+01         YZ= -0.46244782E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3576018E-02 Y=  0.4978834E-08 Z=  0.4611495E-02  Total=      0.0058356
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10199145E+02         XY= -0.17880091E-01         XZ=  0.72218849E-02
                YY= -0.10161240E+02         YZ=  0.23057476E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.64874259E-01 Y= -0.11496524E-10 Z=  0.99367086E-07   Total=     0.06487426
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.18887465E-01         XY= -0.61297292E+00         XZ= -0.54277799E+00
                YY=  0.12448341E+01         YZ=  0.93879463E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7897135E-02 Y=  0.4980134E-08 Z=  0.4611725E-02  Total=      0.0091451
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10242356E+02         XY= -0.39485676E-01         XZ= -0.11912376E-01
                YY= -0.10161240E+02         YZ=  0.23058624E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.36562413E-01 Y= -0.13281552E-10 Z=  0.12259068E-06   Total=     0.03656241
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.55390287E+00         XY= -0.34546474E+00         XZ= -0.30590303E+00
                YY=  0.12448334E+01         YZ=  0.11582102E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9213537E-02 Y=  0.4980279E-08 Z=  0.4611830E-02  Total=      0.0103033
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255520E+02         XY= -0.46067686E-01         XZ= -0.17741337E-01
                YY= -0.10161240E+02         YZ=  0.23059148E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.56603594E-02 Y= -0.12659942E-10 Z= -0.10375389E-07   Total=     0.00566036
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13517985E+01         XY=  0.53482646E-01         XZ=  0.47358014E-01
                YY=  0.12448328E+01         YZ= -0.98132410E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7024374E-02 Y=  0.4979051E-08 Z=  0.4611667E-02  Total=      0.0084029
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10233629E+02         XY= -0.35121874E-01         XZ= -0.80477830E-02
                YY= -0.10161240E+02         YZ=  0.23058332E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45729462E-01 Y= -0.97411270E-11 Z= -0.11506519E-06   Total=     0.04572946
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.21089963E+01         XY=  0.43208079E+00         XZ=  0.38260034E+00
                YY=  0.12448332E+01         YZ= -0.10872836E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2162568E-02 Y=  0.4977461E-08 Z=  0.4611462E-02  Total=      0.0050934
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10185010E+02         XY= -0.10812841E-01         XZ=  0.13480957E-01
                YY= -0.10161240E+02         YZ=  0.23057306E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68399715E-01 Y= -0.53672382E-11 Z= -0.45971609E-07   Total=     0.06839972
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25374021E+01         XY=  0.64628365E+00         XZ=  0.57227456E+00
                YY=  0.12448340E+01         YZ= -0.43440732E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3522096E-02 Y=  0.4982446E-08 Z=  0.4611498E-02  Total=      0.0058027
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10128164E+02         XY=  0.17610478E-01         XZ=  0.38654802E-01
                YY= -0.10161240E+02         YZ=  0.23057490E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65045723E-01 Y= -0.88124527E-12 Z=  0.10256966E-06   Total=     0.06504572
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24740193E+01         XY=  0.61459301E+00         XZ=  0.54421427E+00
                YY=  0.12448341E+01         YZ=  0.96914170E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7866755E-02 Y=  0.4996316E-08 Z=  0.4611728E-02  Total=      0.0091189
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10084717E+02         XY=  0.39333775E-01         XZ=  0.57895600E-01
                YY= -0.10161240E+02         YZ=  0.23058637E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.36943587E-01 Y=  0.22648466E-11 Z=  0.12596484E-06   Total=     0.03694359
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19429649E+01         XY=  0.34906631E+00         XZ=  0.30909424E+00
                YY=  0.12448334E+01         YZ=  0.11902204E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9218383E-02 Y=  0.4997183E-08 Z=  0.4611835E-02  Total=      0.0103076
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071201E+02         XY=  0.46091915E-01         XZ=  0.63881603E-01
                YY= -0.10161240E+02         YZ=  0.23059175E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.52146159E-02 Y=  0.29681022E-11 Z= -0.89060796E-08   Total=     0.00521462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11462913E+01         XY= -0.49270979E-01         XZ= -0.43629192E-01
                YY=  0.12448328E+01         YZ= -0.84119660E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7062718E-02 Y=  0.4997183E-08 Z=  0.4611674E-02  Total=      0.0084350
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092758E+02         XY=  0.35313589E-01         XZ=  0.54334746E-01
                YY= -0.10161240E+02         YZ=  0.23058368E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X= -0.45388873E-01 Y=  0.86843098E-12 Z= -0.11779751E-06   Total=     0.04538887
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.38710934E+00         XY= -0.42886270E+00         XZ= -0.37975341E+00
                YY=  0.12448332E+01         YZ= -0.11130127E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2219923E-02 Y=  0.4997906E-08 Z=  0.4611467E-02  Total=      0.0051180
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10141185E+02         XY=  0.11099615E-01         XZ=  0.32888115E-01
                YY= -0.10161240E+02         YZ=  0.23057334E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68294012E-01 Y= -0.34585015E-11 Z= -0.52307279E-07   Total=     0.06829401
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.45734998E-01         XY= -0.64528490E+00         XZ= -0.57139162E+00
                YY=  0.12448340E+01         YZ= -0.49425653E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3467460E-02 Y=  0.5004046E-08 Z=  0.4611501E-02  Total=      0.0057697
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10198059E+02         XY= -0.17337303E-01         XZ=  0.77025549E-02
                YY= -0.10161240E+02         YZ=  0.23057501E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65215279E-01 Y= -0.86082827E-11 Z=  0.96311192E-07   Total=     0.06521528
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12443154E-01         XY= -0.61619508E+00         XZ= -0.54563156E+00
                YY=  0.12448341E+01         YZ=  0.90994085E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7835549E-02 Y=  0.5016977E-08 Z=  0.4611729E-02  Total=      0.0090920
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241740E+02         XY= -0.39177748E-01         XZ= -0.11639733E-01
                YY= -0.10161240E+02         YZ=  0.23058644E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.37324051E-01 Y= -0.12764197E-10 Z=  0.12320503E-06   Total=     0.03732405
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.53950998E+00         XY= -0.35266118E+00         XZ= -0.31227566E+00
                YY=  0.12448334E+01         YZ=  0.11640156E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9222417E-02 Y=  0.5015821E-08 Z=  0.4611839E-02  Total=      0.0103113
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255609E+02         XY= -0.46112086E-01         XZ= -0.17780726E-01
                YY= -0.10161240E+02         YZ=  0.23059194E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X=  0.47678362E-02 Y= -0.14318244E-10 Z= -0.78849277E-08   Total=     0.00476784
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13349322E+01         XY=  0.45049523E-01         XZ=  0.39890412E-01
                YY=  0.12448329E+01         YZ= -0.74618079E-07         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7100407E-02 Y=  0.5014160E-08 Z=  0.4611680E-02  Total=      0.0084666
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234389E+02         XY= -0.35502035E-01         XZ= -0.83845308E-02
                YY= -0.10161240E+02         YZ=  0.23058399E-01         ZZ= -0.12217321E+02
  Expectation value of momentum operator [a. u.]
    X=  0.45045604E-01 Y= -0.12491581E-10 Z= -0.11498687E-06   Total=     0.04504560
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20960733E+01         XY=  0.42561928E+00         XZ=  0.37687863E+00
                YY=  0.12448332E+01         YZ= -0.10865695E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2276891E-02 Y=  0.5012498E-08 Z=  0.4611472E-02  Total=      0.0051429
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186154E+02         XY= -0.11384459E-01         XZ=  0.12974626E-01
                YY= -0.10161240E+02         YZ=  0.23057359E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.68184699E-01 Y= -0.77123157E-11 Z= -0.49042412E-07   Total=     0.06818470
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25333389E+01         XY=  0.64425204E+00         XZ=  0.57047552E+00
                YY=  0.12448340E+01         YZ= -0.46344455E-06         ZZ=  0.12448334E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3412910E-02 Y=  0.5017194E-08 Z=  0.4611503E-02  Total=      0.0057371
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129256E+02         XY=  0.17064548E-01         XZ=  0.38171191E-01
                YY= -0.10161240E+02         YZ=  0.23057514E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65381352E-01 Y= -0.15670846E-11 Z=  0.10020346E-06   Total=     0.06538135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24803618E+01         XY=  0.61776424E+00         XZ=  0.54702235E+00
                YY=  0.12448341E+01         YZ=  0.94677600E-06         ZZ=  0.12448357E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7804181E-02 Y=  0.5030125E-08 Z=  0.4611732E-02  Total=      0.0090649
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085343E+02         XY=  0.39020901E-01         XZ=  0.57618397E-01
                YY= -0.10161240E+02         YZ=  0.23058656E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37702165E-01 Y=  0.37091211E-11 Z=  0.12734090E-06   Total=     0.03770217
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19573000E+01         XY=  0.35623383E+00         XZ=  0.31544106E+00
                YY=  0.12448334E+01         YZ=  0.12032315E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9226159E-02 Y=  0.5031209E-08 Z=  0.4611844E-02  Total=      0.0103146
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071123E+02         XY=  0.46130795E-01         XZ=  0.63915966E-01
                YY= -0.10161240E+02         YZ=  0.23059219E-01         ZZ= -0.12217319E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43217037E-02 Y=  0.60584635E-11 Z= -0.59280621E-08   Total=     0.00432170
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11631648E+01         XY= -0.40834182E-01         XZ= -0.36158410E-01
                YY=  0.12448329E+01         YZ= -0.55958384E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7137818E-02 Y=  0.5033593E-08 Z=  0.4611687E-02  Total=      0.0084980
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10092007E+02         XY=  0.35689087E-01         XZ=  0.54667266E-01
                YY= -0.10161240E+02         YZ=  0.23058434E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44701354E-01 Y=  0.44393218E-11 Z= -0.11777456E-06   Total=     0.04470135
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40010155E+00         XY= -0.42236658E+00         XZ= -0.37400109E+00
                YY=  0.12448332E+01         YZ= -0.11127687E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2333705E-02 Y=  0.5035037E-08 Z=  0.4611478E-02  Total=      0.0051684
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10140048E+02         XY=  0.11668521E-01         XZ=  0.33391922E-01
                YY= -0.10161240E+02         YZ=  0.23057386E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68073466E-01 Y= -0.66538371E-12 Z= -0.56068118E-07   Total=     0.06807347
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.41567253E-01         XY= -0.64320104E+00         XZ= -0.56954634E+00
                YY=  0.12448340E+01         YZ= -0.52977041E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3358356E-02 Y=  0.5040022E-08 Z=  0.4611505E-02  Total=      0.0057048
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196968E+02         XY= -0.16791784E-01         XZ=  0.81856205E-02
                YY= -0.10161240E+02         YZ=  0.23057524E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65545612E-01 Y= -0.73143576E-11 Z=  0.92765206E-07   Total=     0.06554561
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.62008025E-02         XY= -0.61931628E+00         XZ= -0.54839530E+00
                YY=  0.12448341E+01         YZ=  0.87644477E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7772702E-02 Y=  0.5052592E-08 Z=  0.4611733E-02  Total=      0.0090379
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241112E+02         XY= -0.38863512E-01         XZ= -0.11361511E-01
                YY= -0.10161240E+02         YZ=  0.23058661E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38079572E-01 Y= -0.12780096E-10 Z=  0.12323741E-06   Total=     0.03807957
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52523272E+00         XY= -0.35979981E+00         XZ= -0.31859679E+00
                YY=  0.12448334E+01         YZ=  0.11643195E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9229805E-02 Y=  0.5051797E-08 Z=  0.4611847E-02  Total=      0.0103179
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255683E+02         XY= -0.46149025E-01         XZ= -0.17813503E-01
                YY= -0.10161240E+02         YZ=  0.23059235E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38745961E-02 Y= -0.14604124E-10 Z= -0.60724820E-08   Total=     0.00387460
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13180524E+01         XY=  0.36609628E-01         XZ=  0.32417002E-01
                YY=  0.12448329E+01         YZ= -0.57497116E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7175284E-02 Y=  0.5051219E-08 Z=  0.4611692E-02  Total=      0.0085295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235138E+02         XY= -0.35876424E-01         XZ= -0.87161593E-02
                YY= -0.10161240E+02         YZ=  0.23058461E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44354509E-01 Y= -0.11627369E-10 Z= -0.11574713E-06   Total=     0.04435451
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20830135E+01         XY=  0.41908937E+00         XZ=  0.37109641E+00
                YY=  0.12448332E+01         YZ= -0.10937474E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2390835E-02 Y=  0.5050930E-08 Z=  0.4611482E-02  Total=      0.0051944
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10187293E+02         XY= -0.11954178E-01         XZ=  0.12469981E-01
                YY= -0.10161240E+02         YZ=  0.23057408E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67958695E-01 Y= -0.45617312E-11 Z= -0.53169220E-07   Total=     0.06795870
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25290681E+01         XY=  0.64211661E+00         XZ=  0.56858445E+00
                YY=  0.12448340E+01         YZ= -0.50241266E-06         ZZ=  0.12448333E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3303188E-02 Y=  0.5055987E-08 Z=  0.4611507E-02  Total=      0.0056725
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10130353E+02         XY=  0.16515936E-01         XZ=  0.37685203E-01
                YY= -0.10161240E+02         YZ=  0.23057533E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65706422E-01 Y=  0.41744544E-11 Z=  0.96646129E-07   Total=     0.06570642
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24865048E+01         XY=  0.62083571E+00         XZ=  0.54974186E+00
                YY=  0.12448342E+01         YZ=  0.91321023E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7740360E-02 Y=  0.5069496E-08 Z=  0.4611734E-02  Total=      0.0090101
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085981E+02         XY=  0.38701800E-01         XZ=  0.57335664E-01
                YY= -0.10161240E+02         YZ=  0.23058668E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38454611E-01 Y=  0.11342953E-10 Z=  0.12761625E-06   Total=     0.03845461
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19715192E+01         XY=  0.36334342E+00         XZ=  0.32173625E+00
                YY=  0.12448335E+01         YZ=  0.12058952E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9232456E-02 Y=  0.5072097E-08 Z=  0.4611852E-02  Total=      0.0103202
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071060E+02         XY=  0.46162280E-01         XZ=  0.63943749E-01
                YY= -0.10161240E+02         YZ=  0.23059256E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.34281936E-02 Y=  0.14171065E-10 Z= -0.37660943E-08   Total=     0.00342819
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11800497E+01         XY= -0.32391735E-01         XZ= -0.28682992E-01
                YY=  0.12448329E+01         YZ= -0.35464758E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7211767E-02 Y=  0.5075203E-08 Z=  0.4611699E-02  Total=      0.0085602
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091267E+02         XY=  0.36058833E-01         XZ=  0.54994644E-01
                YY= -0.10161240E+02         YZ=  0.23058492E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44006763E-01 Y=  0.11519769E-10 Z= -0.11828590E-06   Total=     0.04400676
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41322741E+00         XY= -0.41580365E+00         XZ= -0.36818998E+00
                YY=  0.12448333E+01         YZ= -0.11175427E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2447100E-02 Y=  0.5077370E-08 Z=  0.4611487E-02  Total=      0.0052205
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138914E+02         XY=  0.12235497E-01         XZ=  0.33893956E-01
                YY= -0.10161240E+02         YZ=  0.23057432E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67842087E-01 Y=  0.44317723E-11 Z= -0.60238303E-07   Total=     0.06784209
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.37194793E-01         XY= -0.64101482E+00         XZ= -0.56761074E+00
                YY=  0.12448340E+01         YZ= -0.56913203E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3248731E-02 Y=  0.5081705E-08 Z=  0.4611508E-02  Total=      0.0056409
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195872E+02         XY= -0.16243655E-01         XZ=  0.86709221E-02
                YY= -0.10161240E+02         YZ=  0.23057539E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65865484E-01 Y= -0.42064375E-11 Z=  0.88823935E-07   Total=     0.06586548
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.15613357E-03         XY= -0.62233863E+00         XZ= -0.55107176E+00
                YY=  0.12448342E+01         YZ=  0.83922952E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7708626E-02 Y=  0.5092469E-08 Z=  0.4611734E-02  Total=      0.0089828
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240471E+02         XY= -0.38543134E-01         XZ= -0.11077936E-01
                YY= -0.10161240E+02         YZ=  0.23058669E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38828983E-01 Y= -0.10791872E-10 Z=  0.12293294E-06   Total=     0.03882898
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.51107091E+00         XY= -0.36688072E+00         XZ= -0.32486694E+00
                YY=  0.12448335E+01         YZ=  0.11614577E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9235728E-02 Y=  0.5091530E-08 Z=  0.4611854E-02  Total=      0.0103232
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255742E+02         XY= -0.46178641E-01         XZ= -0.17839888E-01
                YY= -0.10161240E+02         YZ=  0.23059268E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29807999E-02 Y= -0.12483493E-10 Z= -0.44453316E-08   Total=     0.00298080
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13011621E+01         XY=  0.28164478E-01         XZ=  0.24938932E-01
                YY=  0.12448329E+01         YZ= -0.42106568E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7249020E-02 Y=  0.5090229E-08 Z=  0.4611703E-02  Total=      0.0085916
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235875E+02         XY= -0.36245104E-01         XZ= -0.90428222E-02
                YY= -0.10161240E+02         YZ=  0.23058514E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43656425E-01 Y= -0.84184543E-11 Z= -0.11656525E-06   Total=     0.04365643
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20698216E+01         XY=  0.41249344E+00         XZ=  0.36525584E+00
                YY=  0.12448333E+01         YZ= -0.11014522E-05         ZZ=  0.12448316E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2504394E-02 Y=  0.5088640E-08 Z=  0.4611490E-02  Total=      0.0052477
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188429E+02         XY= -0.12521971E-01         XZ=  0.11966959E-01
                YY= -0.10161240E+02         YZ=  0.23057450E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67721963E-01 Y= -0.13927756E-12 Z= -0.57365838E-07   Total=     0.06772196
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25245945E+01         XY=  0.63987981E+00         XZ=  0.56660385E+00
                YY=  0.12448341E+01         YZ= -0.54202954E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3192951E-02 Y=  0.5093914E-08 Z=  0.4611509E-02  Total=      0.0056090
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131455E+02         XY=  0.15964752E-01         XZ=  0.37196865E-01
                YY= -0.10161240E+02         YZ=  0.23057544E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66021147E-01 Y=  0.89788470E-11 Z=  0.92920135E-07   Total=     0.06602115
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24924523E+01         XY=  0.62380943E+00         XZ=  0.55237513E+00
                YY=  0.12448342E+01         YZ=  0.87804323E-06         ZZ=  0.12448356E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7675329E-02 Y=  0.5107061E-08 Z=  0.4611735E-02  Total=      0.0089543
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086631E+02         XY=  0.38376645E-01         XZ=  0.57047509E-01
                YY= -0.10161240E+02         YZ=  0.23058672E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39201086E-01 Y=  0.15090094E-10 Z=  0.12770026E-06   Total=     0.03920109
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19856255E+01         XY=  0.37039659E+00         XZ=  0.32798185E+00
                YY=  0.12448335E+01         YZ=  0.12067186E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9237318E-02 Y=  0.5108434E-08 Z=  0.4611857E-02  Total=      0.0103246
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071012E+02         XY=  0.46186590E-01         XZ=  0.63965134E-01
                YY= -0.10161240E+02         YZ=  0.23059285E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.25339416E-02 Y=  0.15476454E-10 Z= -0.16698357E-08   Total=     0.00253394
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11969486E+01         XY= -0.23942278E-01         XZ= -0.21201001E-01
                YY=  0.12448330E+01         YZ= -0.15648861E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7284621E-02 Y=  0.5110818E-08 Z=  0.4611709E-02  Total=      0.0086217
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090539E+02         XY=  0.36423103E-01         XZ=  0.55317146E-01
                YY= -0.10161240E+02         YZ=  0.23058542E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43304927E-01 Y=  0.97069477E-11 Z= -0.11869117E-06   Total=     0.04330493
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42649016E+00         XY= -0.40917226E+00         XZ= -0.36231793E+00
                YY=  0.12448333E+01         YZ= -0.11213889E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2560179E-02 Y=  0.5112479E-08 Z=  0.4611494E-02  Total=      0.0052745
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137783E+02         XY=  0.12800895E-01         XZ=  0.34394579E-01
                YY= -0.10161240E+02         YZ=  0.23057470E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67599644E-01 Y= -0.14104162E-12 Z= -0.64235392E-07   Total=     0.06759964
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.32613275E-01         XY= -0.63872407E+00         XZ= -0.56558236E+00
                YY=  0.12448341E+01         YZ= -0.60693900E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3138492E-02 Y=  0.5118114E-08 Z=  0.4611510E-02  Total=      0.0055782
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194770E+02         XY= -0.15692461E-01         XZ=  0.91589332E-02
                YY= -0.10161240E+02         YZ=  0.23057547E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66174621E-01 Y= -0.10310345E-10 Z=  0.84967805E-07   Total=     0.06617462
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.56856819E-02         XY= -0.62525956E+00         XZ= -0.55365829E+00
                YY=  0.12448342E+01         YZ=  0.80274177E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7643209E-02 Y=  0.5129528E-08 Z=  0.4611734E-02  Total=      0.0089267
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239817E+02         XY= -0.38216049E-01         XZ= -0.10788423E-01
                YY= -0.10161240E+02         YZ=  0.23058669E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39572027E-01 Y= -0.16905397E-10 Z=  0.12250732E-06   Total=     0.03957203
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49702942E+00         XY= -0.37390147E+00         XZ= -0.33108382E+00
                YY=  0.12448335E+01         YZ=  0.11573837E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9240056E-02 Y=  0.5128083E-08 Z=  0.4611859E-02  Total=      0.0103270
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255785E+02         XY= -0.46200282E-01         XZ= -0.17859212E-01
                YY= -0.10161240E+02         YZ=  0.23059292E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.20866047E-02 Y= -0.17503864E-10 Z= -0.32497804E-08   Total=     0.00208660
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12842642E+01         XY=  0.19715557E-01         XZ=  0.17457427E-01
                YY=  0.12448330E+01         YZ= -0.30853570E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7321478E-02 Y=  0.5126422E-08 Z=  0.4611712E-02  Total=      0.0086529
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236599E+02         XY= -0.36607390E-01         XZ= -0.93638294E-02
                YY= -0.10161240E+02         YZ=  0.23058560E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42951332E-01 Y= -0.12157004E-10 Z= -0.11824067E-06   Total=     0.04295133
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20564972E+01         XY=  0.40583127E+00         XZ=  0.35935646E+00
                YY=  0.12448333E+01         YZ= -0.11173153E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2617440E-02 Y=  0.5125266E-08 Z=  0.4611497E-02  Total=      0.0053025
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189559E+02         XY= -0.13087202E-01         XZ=  0.11466192E-01
                YY= -0.10161240E+02         YZ=  0.23057483E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67474266E-01 Y= -0.33554093E-11 Z= -0.62873395E-07   Total=     0.06747427
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25199137E+01         XY=  0.63753942E+00         XZ=  0.56453134E+00
                YY=  0.12448341E+01         YZ= -0.59409681E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3082300E-02 Y=  0.5130178E-08 Z=  0.4611510E-02  Total=      0.0055468
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132562E+02         XY=  0.15411500E-01         XZ=  0.36706673E-01
                YY= -0.10161240E+02         YZ=  0.23057546E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66325110E-01 Y=  0.50228567E-11 Z=  0.87628132E-07   Total=     0.06632511
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24981964E+01         XY=  0.62668147E+00         XZ=  0.55491820E+00
                YY=  0.12448342E+01         YZ=  0.82800630E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7609149E-02 Y=  0.5143399E-08 Z=  0.4611734E-02  Total=      0.0088976
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087293E+02         XY=  0.38045745E-01         XZ=  0.56754240E-01
                YY= -0.10161240E+02         YZ=  0.23058666E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39941082E-01 Y=  0.93355686E-11 Z=  0.12635138E-06   Total=     0.03994108
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19996094E+01         XY=  0.37738854E+00         XZ=  0.33417316E+00
                YY=  0.12448336E+01         YZ=  0.11939236E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9240766E-02 Y=  0.5143832E-08 Z=  0.4611861E-02  Total=      0.0103277
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070977E+02         XY=  0.46203830E-01         XZ=  0.63980228E-01
                YY= -0.10161240E+02         YZ=  0.23059303E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.16394286E-02 Y=  0.76833995E-11 Z= -0.55588827E-09   Total=     0.00163943
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12138524E+01         XY= -0.15490355E-01         XZ= -0.13716819E-01
                YY=  0.12448330E+01         YZ= -0.51904707E-08         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7356366E-02 Y=  0.5143688E-08 Z=  0.4611717E-02  Total=      0.0086824
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089821E+02         XY=  0.36781827E-01         XZ=  0.55634708E-01
                YY= -0.10161240E+02         YZ=  0.23058582E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42596191E-01 Y=  0.66966123E-12 Z= -0.11962868E-06   Total=     0.04259619
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.43988332E+00         XY= -0.40247568E+00         XZ= -0.35638804E+00
                YY=  0.12448333E+01         YZ= -0.11303243E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2672909E-02 Y=  0.5144916E-08 Z=  0.4611500E-02  Total=      0.0053301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10136655E+02         XY=  0.13364541E-01         XZ=  0.34893631E-01
                YY= -0.10161240E+02         YZ=  0.23057498E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67346288E-01 Y= -0.88926066E-11 Z= -0.68605242E-07   Total=     0.06734629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.27825507E-01         XY= -0.63633020E+00         XZ= -0.56346245E+00
                YY=  0.12448341E+01         YZ= -0.64830264E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3027680E-02 Y=  0.5151345E-08 Z=  0.4611509E-02  Total=      0.0055166
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10193661E+02         XY= -0.15138401E-01         XZ=  0.96494744E-02
                YY= -0.10161240E+02         YZ=  0.23057545E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66472987E-01 Y= -0.17184213E-10 Z=  0.80592677E-07   Total=     0.06647299
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.11323934E-01         XY= -0.62807870E+00         XZ= -0.55615444E+00
                YY=  0.12448343E+01         YZ=  0.76134406E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7576483E-02 Y=  0.5162759E-08 Z=  0.4611732E-02  Total=      0.0088697
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239150E+02         XY= -0.37882415E-01         XZ= -0.10493108E-01
                YY= -0.10161240E+02         YZ=  0.23058658E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40308551E-01 Y= -0.20970065E-10 Z=  0.12133020E-06   Total=     0.04030855
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48311114E+00         XY= -0.38086061E+00         XZ= -0.33724587E+00
                YY=  0.12448336E+01         YZ=  0.11462262E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9242806E-02 Y=  0.5161459E-08 Z=  0.4611861E-02  Total=      0.0103295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255813E+02         XY= -0.46214034E-01         XZ= -0.17871536E-01
                YY= -0.10161240E+02         YZ=  0.23059305E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.11921781E-02 Y= -0.18903945E-10 Z= -0.29198085E-08   Total=     0.00119218
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12673620E+01         XY=  0.11264450E-01         XZ=  0.99742236E-02
                YY=  0.12448330E+01         YZ= -0.27749097E-07         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7392661E-02 Y=  0.5159436E-08 Z=  0.4611719E-02  Total=      0.0087132
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237311E+02         XY= -0.36963308E-01         XZ= -0.96791739E-02
                YY= -0.10161240E+02         YZ=  0.23058594E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42239319E-01 Y= -0.12015208E-10 Z= -0.12075083E-06   Total=     0.04223932
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20430421E+01         XY=  0.39910373E+00         XZ=  0.35339936E+00
                YY=  0.12448333E+01         YZ= -0.11410336E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2729975E-02 Y=  0.5158641E-08 Z=  0.4611502E-02  Total=      0.0053590
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190684E+02         XY= -0.13649879E-01         XZ=  0.10967717E-01
                YY= -0.10161240E+02         YZ=  0.23057506E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67215567E-01 Y= -0.32038533E-11 Z= -0.69129542E-07   Total=     0.06721557
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25150250E+01         XY=  0.63509507E+00         XZ=  0.56236686E+00
                YY=  0.12448341E+01         YZ= -0.65320988E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2971228E-02 Y=  0.5163626E-08 Z=  0.4611508E-02  Total=      0.0054858
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133672E+02         XY=  0.14856137E-01         XZ=  0.36214646E-01
                YY= -0.10161240E+02         YZ=  0.23057538E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66618146E-01 Y=  0.40090247E-11 Z=  0.81660486E-07   Total=     0.06661815
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25037340E+01         XY=  0.62945026E+00         XZ=  0.55736986E+00
                YY=  0.12448343E+01         YZ=  0.77160924E-06         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7541798E-02 Y=  0.5175907E-08 Z=  0.4611730E-02  Total=      0.0088401
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087967E+02         XY=  0.37708987E-01         XZ=  0.56455813E-01
                YY= -0.10161240E+02         YZ=  0.23058649E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40674358E-01 Y=  0.69273114E-11 Z=  0.12435994E-06   Total=     0.04067436
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20134663E+01         XY=  0.38431699E+00         XZ=  0.34030817E+00
                YY=  0.12448336E+01         YZ=  0.11750846E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242759E-02 Y=  0.5176557E-08 Z=  0.4611862E-02  Total=      0.0103295
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070957E+02         XY=  0.46213794E-01         XZ=  0.63988906E-01
                YY= -0.10161240E+02         YZ=  0.23059309E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.74489986E-03 Y=  0.47201174E-11 Z= -0.14237052E-09   Total=     0.00074490
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12307565E+01         XY= -0.70382836E-02         XZ= -0.62326000E-02
                YY=  0.12448330E+01         YZ= -0.13105000E-08         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7426944E-02 Y=  0.5177207E-08 Z=  0.4611722E-02  Total=      0.0087423
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089115E+02         XY=  0.37134718E-01         XZ=  0.55947132E-01
                YY= -0.10161240E+02         YZ=  0.23058610E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41880740E-01 Y= -0.13507332E-11 Z= -0.12147345E-06   Total=     0.04188074
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45340336E+00         XY= -0.39571564E+00         XZ= -0.35040206E+00
                YY=  0.12448333E+01         YZ= -0.11477740E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2785220E-02 Y=  0.5178363E-08 Z=  0.4611503E-02  Total=      0.0053873
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135532E+02         XY=  0.13926099E-01         XZ=  0.35390859E-01
                YY= -0.10161240E+02         YZ=  0.23057515E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67082107E-01 Y= -0.85634169E-11 Z= -0.74177567E-07   Total=     0.06708211
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.22833192E-01         XY= -0.63383405E+00         XZ= -0.56125205E+00
                YY=  0.12448341E+01         YZ= -0.70095315E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2916364E-02 Y=  0.5183059E-08 Z=  0.4611507E-02  Total=      0.0054563
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192548E+02         XY= -0.14581821E-01         XZ=  0.10142272E-01
                YY= -0.10161240E+02         YZ=  0.23057531E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66760574E-01 Y= -0.13917723E-10 Z=  0.74856394E-07   Total=     0.06676057
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.16758505E-01         XY= -0.63079600E+00         XZ= -0.55856041E+00
                YY=  0.12448343E+01         YZ=  0.70716872E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7508511E-02 Y=  0.5193389E-08 Z=  0.4611727E-02  Total=      0.0088117
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238470E+02         XY= -0.37542557E-01         XZ= -0.10192252E-01
                YY= -0.10161240E+02         YZ=  0.23058635E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41038477E-01 Y= -0.15347956E-10 Z=  0.11899228E-06   Total=     0.04103848
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46931755E+00         XY= -0.38775741E+00         XZ= -0.34335264E+00
                YY=  0.12448337E+01         YZ=  0.11241801E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9244035E-02 Y=  0.5192233E-08 Z=  0.4611861E-02  Total=      0.0103306
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255825E+02         XY= -0.46220179E-01         XZ= -0.17877088E-01
                YY= -0.10161240E+02         YZ=  0.23059305E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.29763492E-03 Y= -0.12475169E-10 Z= -0.32008534E-08   Total=     0.00029763
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12504575E+01         XY=  0.28122424E-02         XZ=  0.24902144E-02
                YY=  0.12448330E+01         YZ= -0.30354048E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7462618E-02 Y=  0.5191439E-08 Z=  0.4611724E-02  Total=      0.0087726
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238011E+02         XY= -0.37313091E-01         XZ= -0.99890388E-02
                YY= -0.10161240E+02         YZ=  0.23058617E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41520510E-01 Y= -0.66254239E-11 Z= -0.12322927E-06   Total=     0.04152051
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20294586E+01         XY=  0.39231197E+00         XZ=  0.34738565E+00
                YY=  0.12448333E+01         YZ= -0.11644097E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2842037E-02 Y=  0.5191583E-08 Z=  0.4611504E-02  Total=      0.0054169
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191805E+02         XY= -0.14210188E-01         XZ=  0.10471400E-01
                YY= -0.10161240E+02         YZ=  0.23057517E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66945985E-01 Y= -0.16824960E-12 Z= -0.74877188E-07   Total=     0.06694598
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25099307E+01         XY=  0.63254789E+00         XZ=  0.56011163E+00
                YY=  0.12448341E+01         YZ= -0.70749520E-06         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2859704E-02 Y=  0.5195918E-08 Z=  0.4611504E-02  Total=      0.0054262
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134787E+02         XY=  0.14298519E-01         XZ=  0.35720696E-01
                YY= -0.10161240E+02         YZ=  0.23057519E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66900373E-01 Y=  0.44977048E-11 Z=  0.76483135E-07   Total=     0.06690037
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25090673E+01         XY=  0.63211691E+00         XZ=  0.55973140E+00
                YY=  0.12448343E+01         YZ=  0.72269132E-06         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7473252E-02 Y=  0.5207115E-08 Z=  0.4611724E-02  Total=      0.0087817
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088652E+02         XY=  0.37366260E-01         XZ=  0.56152189E-01
                YY= -0.10161240E+02         YZ=  0.23058620E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.41401035E-01 Y=  0.58726592E-11 Z=  0.12340700E-06   Total=     0.04140104
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20271985E+01         XY=  0.39118309E+00         XZ=  0.34638828E+00
                YY=  0.12448337E+01         YZ=  0.11660689E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9243281E-02 Y=  0.5207187E-08 Z=  0.4611861E-02  Total=      0.0103299
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070952E+02         XY=  0.46216405E-01         XZ=  0.63991172E-01
                YY= -0.10161240E+02         YZ=  0.23059303E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.14977162E-03 Y=  0.38342278E-11 Z=  0.16385545E-08   Total=     0.00014977
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12476633E+01         XY=  0.14151367E-02         XZ=  0.12530261E-02
                YY=  0.12448331E+01         YZ=  0.15506669E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7496347E-02 Y=  0.5205598E-08 Z=  0.4611726E-02  Total=      0.0088013
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10088421E+02         XY=  0.37481733E-01         XZ=  0.56254459E-01
                YY= -0.10161240E+02         YZ=  0.23058628E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41158453E-01 Y= -0.47370095E-12 Z= -0.12160877E-06   Total=     0.04115845
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.46705256E+00         XY= -0.38889102E+00         XZ= -0.34435878E+00
                YY=  0.12448333E+01         YZ= -0.11490480E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2897110E-02 Y=  0.5205453E-08 Z=  0.4611505E-02  Total=      0.0054460
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10134413E+02         XY=  0.14485549E-01         XZ=  0.35886331E-01
                YY= -0.10161240E+02         YZ=  0.23057524E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66807007E-01 Y= -0.52249966E-11 Z= -0.77828276E-07   Total=     0.06680701
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.17634582E-01         XY= -0.63123474E+00         XZ= -0.55895033E+00
                YY=  0.12448341E+01         YZ= -0.73542208E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2804546E-02 Y=  0.5212533E-08 Z=  0.4611502E-02  Total=      0.0053974
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10191430E+02         XY= -0.14022730E-01         XZ=  0.10637401E-01
                YY= -0.10161240E+02         YZ=  0.23057510E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67037341E-01 Y= -0.86767096E-11 Z=  0.71075552E-07   Total=     0.06703734
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.21988641E-01         XY= -0.63341107E+00         XZ= -0.56087601E+00
                YY=  0.12448343E+01         YZ=  0.67148612E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7439298E-02 Y=  0.5224597E-08 Z=  0.4611721E-02  Total=      0.0087528
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237778E+02         XY= -0.37196492E-01         XZ= -0.98858009E-02
                YY= -0.10161240E+02         YZ=  0.23058605E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41761835E-01 Y= -0.97881259E-11 Z=  0.11851865E-06   Total=     0.04176183
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.45564804E+00         XY= -0.39459215E+00         XZ= -0.34940471E+00
                YY=  0.12448337E+01         YZ=  0.11197488E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9243754E-02 Y=  0.5224742E-08 Z=  0.4611860E-02  Total=      0.0103304
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255822E+02         XY= -0.46218773E-01         XZ= -0.17875865E-01
                YY= -0.10161240E+02         YZ=  0.23059298E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.59713293E-03 Y= -0.84754851E-11 Z= -0.18021887E-08   Total=     0.00059713
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12335488E+01         XY= -0.56420886E-02         XZ= -0.49959722E-02
                YY=  0.12448330E+01         YZ= -0.17107585E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7531371E-02 Y=  0.5224091E-08 Z=  0.4611727E-02  Total=      0.0088312
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10238698E+02         XY= -0.37656856E-01         XZ= -0.10293498E-01
                YY= -0.10161240E+02         YZ=  0.23058633E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40794731E-01 Y= -0.54679767E-11 Z= -0.12433680E-06   Total=     0.04079473
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20157433E+01         XY=  0.38545435E+00         XZ=  0.34131331E+00
                YY=  0.12448333E+01         YZ= -0.11748669E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2953664E-02 Y=  0.5223369E-08 Z=  0.4611505E-02  Total=      0.0054763
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10192921E+02         XY= -0.14768324E-01         XZ=  0.99770726E-02
                YY= -0.10161240E+02         YZ=  0.23057523E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66665307E-01 Y= -0.19010298E-11 Z= -0.79669078E-07   Total=     0.06666531
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25046266E+01         XY=  0.62989586E+00         XZ=  0.55776329E+00
                YY=  0.12448341E+01         YZ= -0.75278844E-06         ZZ=  0.12448329E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2747674E-02 Y=  0.5228137E-08 Z=  0.4611500E-02  Total=      0.0053680
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10135908E+02         XY=  0.13738367E-01         XZ=  0.35224557E-01
                YY= -0.10161240E+02         YZ=  0.23057496E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67171574E-01 Y=  0.11373744E-11 Z=  0.71887529E-07   Total=     0.06717157
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25141923E+01         XY=  0.63467940E+00         XZ=  0.56200049E+00
                YY=  0.12448343E+01         YZ=  0.67923932E-06         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7403442E-02 Y=  0.5238684E-08 Z=  0.4611718E-02  Total=      0.0087223
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10089350E+02         XY=  0.37017210E-01         XZ=  0.55843015E-01
                YY= -0.10161240E+02         YZ=  0.23058586E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42120935E-01 Y=  0.29249530E-11 Z=  0.12287125E-06   Total=     0.04212093
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20408026E+01         XY=  0.39798515E+00         XZ=  0.35241156E+00
                YY=  0.12448337E+01         YZ=  0.11609807E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9242252E-02 Y=  0.5240201E-08 Z=  0.4611859E-02  Total=      0.0103290
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070962E+02         XY=  0.46211260E-01         XZ=  0.63986618E-01
                YY= -0.10161240E+02         YZ=  0.23059293E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.10444779E-02 Y=  0.32097146E-11 Z=  0.38867860E-08   Total=     0.00104448
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12645707E+01         XY=  0.98688860E-02         XZ=  0.87389511E-02
                YY=  0.12448330E+01         YZ=  0.36742839E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7564491E-02 Y=  0.5242368E-08 Z=  0.4611729E-02  Total=      0.0088594
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087740E+02         XY=  0.37822452E-01         XZ=  0.56556263E-01
                YY= -0.10161240E+02         YZ=  0.23058642E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.40429337E-01 Y=  0.21387611E-11 Z= -0.12117859E-06   Total=     0.04042934
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.48083076E+00         XY= -0.38200188E+00         XZ= -0.33825825E+00
                YY=  0.12448333E+01         YZ= -0.11449626E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3008501E-02 Y=  0.5243813E-08 Z=  0.4611506E-02  Total=      0.0055061
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10133300E+02         XY=  0.15042505E-01         XZ=  0.36379656E-01
                YY= -0.10161240E+02         YZ=  0.23057529E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66520882E-01 Y=  0.11703502E-12 Z= -0.80902974E-07   Total=     0.06652088
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.12227651E-01         XY= -0.62853125E+00         XZ= -0.55655611E+00
                YY=  0.12448341E+01         YZ= -0.76443012E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2692287E-02 Y=  0.5251182E-08 Z=  0.4611498E-02  Total=      0.0053399
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10190307E+02         XY= -0.13461437E-01         XZ=  0.11134554E-01
                YY= -0.10161240E+02         YZ=  0.23057486E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67303065E-01 Y= -0.23072972E-11 Z=  0.67852793E-07   Total=     0.06730306
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.27010125E-01         XY= -0.63592180E+00         XZ= -0.56309886E+00
                YY=  0.12448343E+01         YZ=  0.64108780E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7368882E-02 Y=  0.5263174E-08 Z=  0.4611714E-02  Total=      0.0086930
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10237073E+02         XY= -0.36844412E-01         XZ= -0.95739323E-02
                YY= -0.10161240E+02         YZ=  0.23058570E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.42478305E-01 Y= -0.45075564E-11 Z=  0.11872373E-06   Total=     0.04247830
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.44210866E+00         XY= -0.40136181E+00         XZ= -0.35539874E+00
                YY=  0.12448337E+01         YZ=  0.11217299E-05         ZZ=  0.12448353E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9241970E-02 Y=  0.5263968E-08 Z=  0.4611858E-02  Total=      0.0103288
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255804E+02         XY= -0.46209854E-01         XZ= -0.17867883E-01
                YY= -0.10161240E+02         YZ=  0.23059286E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.14917459E-02 Y= -0.58341860E-11 Z=  0.57963401E-09   Total=     0.00149175
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12166430E+01         XY= -0.14094956E-01         XZ= -0.12480453E-01
                YY=  0.12448330E+01         YZ=  0.54186397E-08         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7598896E-02 Y=  0.5262524E-08 Z=  0.4611729E-02  Total=      0.0088888
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10239374E+02         XY= -0.37994482E-01         XZ= -0.10592399E-01
                YY= -0.10161240E+02         YZ=  0.23058645E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.40062365E-01 Y= -0.57258799E-11 Z= -0.12412718E-06   Total=     0.04006236
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20019034E+01         XY=  0.37853449E+00         XZ=  0.33518623E+00
                YY=  0.12448333E+01         YZ= -0.11728893E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3064804E-02 Y=  0.5261151E-08 Z=  0.4611506E-02  Total=      0.0055371
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10194033E+02         XY= -0.15324021E-01         XZ=  0.94850392E-02
                YY= -0.10161240E+02         YZ=  0.23057528E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66373854E-01 Y= -0.39019993E-11 Z= -0.82963632E-07   Total=     0.06637385
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24991189E+01         XY=  0.62714204E+00         XZ=  0.55532508E+00
                YY=  0.12448340E+01         YZ= -0.78393494E-06         ZZ=  0.12448328E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2635211E-02 Y=  0.5266497E-08 Z=  0.4611494E-02  Total=      0.0053113
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10137032E+02         XY=  0.13176051E-01         XZ=  0.34726644E-01
                YY= -0.10161240E+02         YZ=  0.23057470E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67431950E-01 Y= -0.57674382E-12 Z=  0.68801809E-07   Total=     0.06743195
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25191126E+01         XY=  0.63713959E+00         XZ=  0.56417913E+00
                YY=  0.12448343E+01         YZ=  0.65006852E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7332451E-02 Y=  0.5277333E-08 Z=  0.4611711E-02  Total=      0.0086621
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090060E+02         XY=  0.36662253E-01         XZ=  0.55528751E-01
                YY= -0.10161240E+02         YZ=  0.23058551E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.42834089E-01 Y=  0.34345468E-11 Z=  0.12382951E-06   Total=     0.04283409
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20542792E+01         XY=  0.40472348E+00         XZ=  0.35837837E+00
                YY=  0.12448336E+01         YZ=  0.11700387E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9239750E-02 Y=  0.5278344E-08 Z=  0.4611857E-02  Total=      0.0103268
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10070987E+02         XY=  0.46198749E-01         XZ=  0.63975674E-01
                YY= -0.10161240E+02         YZ=  0.23059281E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.19390758E-02 Y=  0.68425672E-11 Z=  0.76891868E-08   Total=     0.00193908
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12814761E+01         XY=  0.18321611E-01         XZ=  0.16223761E-01
                YY=  0.12448330E+01         YZ=  0.72700318E-07         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7631436E-02 Y=  0.5280006E-08 Z=  0.4611731E-02  Total=      0.0089167
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10087070E+02         XY=  0.38157176E-01         XZ=  0.56852879E-01
                YY= -0.10161240E+02         YZ=  0.23058654E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.39693687E-01 Y=  0.82796204E-11 Z= -0.11909581E-06   Total=     0.03969369
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.49473245E+00         XY= -0.37505099E+00         XZ= -0.33210340E+00
                YY=  0.12448332E+01         YZ= -0.11252322E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3119426E-02 Y=  0.5282245E-08 Z=  0.4611507E-02  Total=      0.0055675
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10132190E+02         XY=  0.15597127E-01         XZ=  0.36871018E-01
                YY= -0.10161240E+02         YZ=  0.23057534E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.66224115E-01 Y=  0.68587938E-11 Z= -0.82278386E-07   Total=     0.06622411
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.66196088E-02         XY= -0.62572720E+00         XZ= -0.55407334E+00
                YY=  0.12448340E+01         YZ= -0.77736989E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2579587E-02 Y=  0.5290553E-08 Z=  0.4611493E-02  Total=      0.0052840
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10189180E+02         XY= -0.12897937E-01         XZ=  0.11633743E-01
                YY= -0.10161240E+02         YZ=  0.23057462E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67558143E-01 Y=  0.26653635E-11 Z=  0.66314265E-07   Total=     0.06755814
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.31830439E-01         XY= -0.63833195E+00         XZ= -0.56523324E+00
                YY=  0.12448343E+01         YZ=  0.62659189E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7297291E-02 Y=  0.5301461E-08 Z=  0.4611708E-02  Total=      0.0086324
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10236358E+02         XY= -0.36486455E-01         XZ= -0.92568045E-02
                YY= -0.10161240E+02         YZ=  0.23058537E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43188227E-01 Y= -0.30797602E-11 Z=  0.12059034E-06   Total=     0.04318823
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.42869302E+00         XY= -0.40806961E+00         XZ= -0.36133859E+00
                YY=  0.12448336E+01         YZ=  0.11393782E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9238734E-02 Y=  0.5300883E-08 Z=  0.4611856E-02  Total=      0.0103259
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255772E+02         XY= -0.46193673E-01         XZ= -0.17853440E-01
                YY= -0.10161240E+02         YZ=  0.23059276E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.23864383E-02 Y= -0.83390611E-11 Z=  0.45912252E-08   Total=     0.00238644
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11997357E+01         XY= -0.22548574E-01         XZ= -0.19966133E-01
                YY=  0.12448330E+01         YZ=  0.43301175E-07         ZZ=  0.12448330E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7665256E-02 Y=  0.5299872E-08 Z=  0.4611732E-02  Total=      0.0089456
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240037E+02         XY= -0.38326283E-01         XZ= -0.10886132E-01
                YY= -0.10161240E+02         YZ=  0.23058660E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.39323300E-01 Y= -0.11007283E-10 Z= -0.12240599E-06   Total=     0.03932330
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19879371E+01         XY=  0.37155134E+00         XZ=  0.32900270E+00
                YY=  0.12448332E+01         YZ= -0.11566709E-05         ZZ=  0.12448313E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3175522E-02 Y=  0.5299439E-08 Z=  0.4611507E-02  Total=      0.0055991
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10195140E+02         XY= -0.15877612E-01         XZ=  0.89948675E-02
                YY= -0.10161240E+02         YZ=  0.23057535E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.66071627E-01 Y= -0.98172883E-11 Z= -0.84972228E-07   Total=     0.06607163
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24934076E+01         XY=  0.62428640E+00         XZ=  0.55279650E+00
                YY=  0.12448340E+01         YZ= -0.80296292E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2522252E-02 Y=  0.5304640E-08 Z=  0.4611490E-02  Total=      0.0052562
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10138162E+02         XY=  0.12611259E-01         XZ=  0.34226529E-01
                YY= -0.10161240E+02         YZ=  0.23057448E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67681585E-01 Y= -0.50089650E-11 Z=  0.66797494E-07   Total=     0.06768158
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25238300E+01         XY=  0.63949829E+00         XZ=  0.56626792E+00
                YY=  0.12448343E+01         YZ=  0.63109375E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7260225E-02 Y=  0.5314754E-08 Z=  0.4611704E-02  Total=      0.0086011
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10090782E+02         XY=  0.36301124E-01         XZ=  0.55209016E-01
                YY= -0.10161240E+02         YZ=  0.23058518E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.43540652E-01 Y=  0.15825132E-11 Z=  0.12584764E-06   Total=     0.04354065
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20676313E+01         XY=  0.41139954E+00         XZ=  0.36429027E+00
                YY=  0.12448336E+01         YZ=  0.11890924E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9235736E-02 Y=  0.5315548E-08 Z=  0.4611855E-02  Total=      0.0103232
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071027E+02         XY=  0.46178678E-01         XZ=  0.63958045E-01
                YY= -0.10161240E+02         YZ=  0.23059271E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.28337880E-02 Y=  0.71422896E-11 Z=  0.12699131E-07   Total=     0.00283379
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.12983836E+01         XY=  0.26775416E-01         XZ=  0.23709938E-01
                YY=  0.12448330E+01         YZ=  0.12004063E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7697164E-02 Y=  0.5317716E-08 Z=  0.4611735E-02  Total=      0.0089730
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10086413E+02         XY=  0.38485816E-01         XZ=  0.57144137E-01
                YY= -0.10161240E+02         YZ=  0.23058671E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38951193E-01 Y=  0.89984467E-11 Z= -0.11570292E-06   Total=     0.03895119
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.50876349E+00         XY= -0.36803543E+00         XZ= -0.32589076E+00
                YY=  0.12448332E+01         YZ= -0.10931673E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3229895E-02 Y=  0.5319233E-08 Z=  0.4611509E-02  Total=      0.0056301
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10131086E+02         XY=  0.16149472E-01         XZ=  0.37360418E-01
                YY= -0.10161240E+02         YZ=  0.23057544E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65916292E-01 Y=  0.58055486E-11 Z= -0.82474375E-07   Total=     0.06591629
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.80261316E-03         XY= -0.62281869E+00         XZ= -0.55149749E+00
                YY=  0.12448340E+01         YZ= -0.77922993E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2466397E-02 Y=  0.5326746E-08 Z=  0.4611489E-02  Total=      0.0052296
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10188049E+02         XY= -0.12331988E-01         XZ=  0.12135180E-01
                YY= -0.10161240E+02         YZ=  0.23057444E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.67802062E-01 Y= -0.17384075E-11 Z=  0.65648540E-07   Total=     0.06780206
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.36439833E-01         XY= -0.64063664E+00         XZ= -0.56727369E+00
                YY=  0.12448343E+01         YZ=  0.62026551E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7224431E-02 Y=  0.5339171E-08 Z=  0.4611702E-02  Total=      0.0085709
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10235629E+02         XY= -0.36122159E-01         XZ= -0.89339644E-02
                YY= -0.10161240E+02         YZ=  0.23058507E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.43891033E-01 Y= -0.11008672E-10 Z=  0.12309453E-06   Total=     0.04389103
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.41541188E+00         XY= -0.41471016E+00         XZ= -0.36721847E+00
                YY=  0.12448337E+01         YZ=  0.11629739E-05         ZZ=  0.12448354E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9233908E-02 Y=  0.5338882E-08 Z=  0.4611854E-02  Total=      0.0103215
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255724E+02         XY= -0.46169544E-01         XZ= -0.17831846E-01
                YY= -0.10161240E+02         YZ=  0.23059269E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.32806831E-02 Y= -0.18427704E-10 Z=  0.92482268E-08   Total=     0.00328068
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11828368E+01         XY= -0.30997963E-01         XZ= -0.27447832E-01
                YY=  0.12448330E+01         YZ=  0.87220238E-07         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7730278E-02 Y=  0.5335920E-08 Z=  0.4611736E-02  Total=      0.0090014
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10240687E+02         XY= -0.38651392E-01         XZ= -0.11173823E-01
                YY= -0.10161240E+02         YZ=  0.23058679E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.38577896E-01 Y= -0.20933895E-10 Z= -0.11985542E-06   Total=     0.03857790
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19738509E+01         XY=  0.36450829E+00         XZ=  0.32276613E+00
                YY=  0.12448332E+01         YZ= -0.11326530E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3285628E-02 Y=  0.5333392E-08 Z=  0.4611510E-02  Total=      0.0056623
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10196241E+02         XY= -0.16428140E-01         XZ=  0.85075174E-02
                YY= -0.10161240E+02         YZ=  0.23057548E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65758697E-01 Y= -0.17332907E-10 Z= -0.85992578E-07   Total=     0.06575870
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24874941E+01         XY=  0.62132964E+00         XZ=  0.55017811E+00
                YY=  0.12448340E+01         YZ= -0.81266503E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.2408981E-02 Y=  0.5337293E-08 Z=  0.4611487E-02  Total=      0.0052028
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10139295E+02         XY=  0.12044901E-01         XZ=  0.33725119E-01
                YY= -0.10161240E+02         YZ=  0.23057433E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.67920194E-01 Y= -0.89267904E-11 Z=  0.65784768E-07   Total=     0.06792019
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.25283391E+01         XY=  0.64175283E+00         XZ=  0.56826393E+00
                YY=  0.12448343E+01         YZ=  0.62149375E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7186910E-02 Y=  0.5346829E-08 Z=  0.4611699E-02  Total=      0.0085393
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10091516E+02         XY=  0.35934547E-01         XZ=  0.54884519E-01
                YY= -0.10161240E+02         YZ=  0.23058492E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.44239993E-01 Y=  0.90320981E-12 Z=  0.12870634E-06   Total=     0.04423999
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.20808469E+01         XY=  0.41800736E+00         XZ=  0.37014102E+00
                YY=  0.12448337E+01         YZ=  0.12160989E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.9230294E-02 Y=  0.5347479E-08 Z=  0.4611854E-02  Total=      0.0103183
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10071082E+02         XY=  0.46151467E-01         XZ=  0.63934118E-01
                YY= -0.10161240E+02         YZ=  0.23059267E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37277375E-02 Y=  0.80386012E-11 Z=  0.18287281E-07   Total=     0.00372774
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.13152768E+01         XY=  0.35222015E-01         XZ=  0.31188899E-01
                YY=  0.12448330E+01         YZ=  0.17284967E-06         ZZ=  0.12448332E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.7761684E-02 Y=  0.5347623E-08 Z=  0.4611739E-02  Total=      0.0090284
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10085768E+02         XY=  0.38808417E-01         XZ=  0.57430036E-01
                YY= -0.10161240E+02         YZ=  0.23058693E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.38202811E-01 Y=  0.93533322E-11 Z= -0.11207177E-06   Total=     0.03820281
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52290582E+00         XY= -0.36096425E+00         XZ= -0.31962971E+00
                YY=  0.12448332E+01         YZ= -0.10588540E-05         ZZ=  0.12448315E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X=  0.3339844E-02 Y=  0.5348129E-08 Z=  0.4611513E-02  Total=      0.0056939
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10129986E+02         XY=  0.16699220E-01         XZ=  0.37847471E-01
                YY= -0.10161240E+02         YZ=  0.23057561E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.65598262E-01 Y=  0.40965357E-11 Z= -0.82762808E-07   Total=     0.06559826
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.52072638E-02         XY= -0.61981375E+00         XZ= -0.54883701E+00
                YY=  0.12448340E+01         YZ= -0.78196860E-06         ZZ=  0.12448327E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.2352839E-02 Y=  0.5355281E-08 Z=  0.4611487E-02  Total=      0.0051770
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10186913E+02         XY= -0.11764197E-01         XZ=  0.12638172E-01
                YY= -0.10161240E+02         YZ=  0.23057432E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X= -0.68035415E-01 Y= -0.56911082E-11 Z=  0.64735330E-07   Total=     0.06803541
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX= -0.40849538E-01         XY= -0.64284151E+00         XZ= -0.56922631E+00
                YY=  0.12448343E+01         YZ=  0.61160488E-06         ZZ=  0.12448352E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7150459E-02 Y=  0.5365611E-08 Z=  0.4611697E-02  Total=      0.0085086
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10234889E+02         XY= -0.35752297E-01         XZ= -0.86062901E-02
                YY= -0.10161240E+02         YZ=  0.23058484E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X= -0.44586986E-01 Y= -0.15947749E-10 Z=  0.12547930E-06   Total=     0.04458699
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.40226028E+00         XY= -0.42128596E+00         XZ= -0.37304133E+00
                YY=  0.12448337E+01         YZ=  0.11854665E-05         ZZ=  0.12448355E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.9227654E-02 Y=  0.5364383E-08 Z=  0.4611854E-02  Total=      0.0103159
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10255661E+02         XY= -0.46138271E-01         XZ= -0.17804029E-01
                YY= -0.10161240E+02         YZ=  0.23059269E-01         ZZ= -0.12217318E+02
  Expectation value of momentum operator [a. u.]
    X= -0.41744238E-02 Y= -0.22258705E-10 Z=  0.14071450E-07   Total=     0.00417442
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.11659475E+01         XY= -0.39442589E-01         XZ= -0.34925354E-01
                YY=  0.12448330E+01         YZ=  0.13276229E-06         ZZ=  0.12448331E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.7794106E-02 Y=  0.5361566E-08 Z=  0.4611741E-02  Total=      0.0090563
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10241326E+02         XY= -0.38970531E-01         XZ= -0.11456326E-01
                YY= -0.10161240E+02         YZ=  0.23058705E-01         ZZ= -0.12217320E+02
  Expectation value of momentum operator [a. u.]
    X=  0.37826448E-01 Y= -0.21730160E-10 Z= -0.11701335E-06   Total=     0.03782645
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.19596506E+01         XY=  0.35740813E+00         XZ=  0.31647922E+00
                YY=  0.12448332E+01         YZ= -0.11058049E-05         ZZ=  0.12448314E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Reference Point [Bohr]              0.00000000      0.00000000      0.00000000
  Charges
    Electronic=    -14.00000000    Core=    14.00000000    Total=     0.00000000
  Dipoles are based on the traditional operator.
  Dipole moment [Debye]
    X= -0.3395234E-02 Y=  0.5358170E-08 Z=  0.4611514E-02  Total=      0.0057266
  Quadrupole moment [Debye*Angstrom]
                XX= -0.10197337E+02         XY= -0.16976173E-01         XZ=  0.80222912E-02
                YY= -0.10161240E+02         YZ=  0.23057568E-01         ZZ= -0.12217323E+02
  Expectation value of momentum operator [a. u.]
    X=  0.65435490E-01 Y= -0.14265218E-10 Z= -0.86989348E-07   Total=     0.06543549
  Expectation value of quadrupole operator in vel. repr. [a. u.]
                XX=  0.24813863E+01         XY=  0.61827577E+00         XZ=  0.54747417E+00
                YY=  0.12448340E+01         YZ= -0.82205648E-06         ZZ=  0.12448326E+01
  Expectation value of [r,V_nl] [a. u.]
    X=  0.00000000E+00 Y=  0.00000000E+00 Z=  0.00000000E+00   Total=     0.00000000
  Expectation value of [rr,V_nl] [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x V_nl x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
  Expectation value of r x r x V_nl + V_nl x r x r [a. u.]
                XX=  0.00000000E+00         XY=  0.00000000E+00         XZ=  0.00000000E+00
                YY=  0.00000000E+00         YZ=  0.00000000E+00         ZZ=  0.00000000E+00
